Vehicle accessory system

ABSTRACT

An accessory system for a vehicle includes a mounting element attached at a vehicle windshield, a module mounted at a side of the mounting element that opposes the side that attaches at the windshield, and a camera disposed in the module. The module includes attaching structure that cooperates with attaching structure of the mounting element in order to detachably mount the module at the mounting element. The camera, with the module mounted at the mounting element attached at the vehicle windshield, may view forwardly through the vehicle windshield via a generally wedge-shaped structure. The camera captures image data for a driver assistance system of the vehicle. Electrical circuitry is disposed in the module and, with the module mounted at the mounting element attached at the vehicle windshield, the electrical circuitry communicates over a vehicle communication bus with at least one system of the vehicle.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of U.S. patent applicationSer. No. 13/470,860, filed May 14, 2012, now U.S. Pat. No. 8,405,726,which is a continuation of U.S. patent application Ser. No. 12/132,373,filed Jun. 3, 2008, now U.S. Pat. No. 8,179,437, which is a division ofU.S. patent application Ser. No. 11/716,834, filed Mar. 12, 2007, nowU.S. Pat. No. 7,533,998, which is a continuation of U.S. patentapplication Ser. No. 10/958,087, filed Oct. 4, 2004, now U.S. Pat. No.7,188,963, which is a division of U.S. patent application Ser. No.10/355,454, filed Jan. 31, 2003, now U.S. Pat. No. 6,824,281, whichclaims priority of U.S. provisional application Ser. No. 60/420,560,filed Oct. 23, 2002; Ser. No. 60/398,346, filed Jul. 24, 2002; Ser. No.60/381,314, filed May 17, 2002; Ser. No. 60/374,724, filed Apr. 23,2002; Ser. No. 60/364,008, filed Mar. 14, 2002; and Ser. No. 60/350,965,filed Jan. 31, 2002, which are all hereby incorporated herein byreference in their entireties.

FIELD OF THE INVENTION

The present invention relates generally to accessories useful for avehicle and, more particularly, to accessories used in windshieldelectronic modules and interior rearview mirror assemblies.

BACKGROUND OF THE INVENTION

Certain accessories of a vehicle, such as a rain sensor or imagingsensor, typically are mounted tight against an interior surface of awindshield or window. This is required in some cases to maintain adesired distance between a light emitter/light sensor and the interiorsurface of the windshield, and/or to optically couple the component tothe windshield, and/or to substantially seal the component at thewindshield to prevent dust, dirt, smoke or other contaminants fromaffecting the component. In order to mount the accessories, it isdesirable to move the accessories generally perpendicular to the surfaceof the window to avoid scratching of the window or the accessory bysliding the accessory relative to the window. It may be difficult forautomobile assembly-line operators to mount such accessories onto, forexample, a mirror mounting button on the interior surface of thewindshield of a vehicle being assembled, since the assembly processesrequire multiple operations at the vehicle assembly plant.

Many camera-based accessories used in vehicles today require viewingthrough a window or windshield of the vehicle. The camera or sensor maybe a contacting type of sensor, where the sensor is in contact with theinterior surface of the windshield, or may be spaced from thewindshield. It is desired to provide a blacked out area or ceramic fritregion in areas where such accessories are mounted at the windshield, inorder to enhance the appearance of the vehicle. Therefore, an apertureor port may have to be formed in the frit layer for the camera or imagesensor to be aligned with. However, the frit layer then may include theport or aperture even for vehicles where the camera-based accessory isnot selected as an option. In order to provide an appropriate frit layerfor the camera-based accessory option, the vehicle manufacturer may needto plan or design different frit layers for different options availableto the vehicle, which may result in a proliferation of windshields andpart numbers for the different optional accessories.

Therefore, there is a need in the art for an accessory module thatovercomes the shortcomings of the prior art devices.

SUMMARY OF THE INVENTION

The present invention is intended to provide an accessory module whichis readily mountable at an interior surface of a windshield of avehicle. The accessory module is mounted and preferably loaded to andagainst the windshield to maintain close and tight coupling ofaccessories within the module, such as a rain sensor, temperaturesensor, image sensor and/or the like. The accessory module may have ahead portion or accessory housing which is attached to or movablyattached to a base portion which is mountable at an interior surface ofa vehicle windshield.

According to an aspect of the present invention, an accessory system fora vehicle comprises a vehicle windshield having a first attachmentmember affixed thereto, an accessory module assembly comprising amounting portion and a head portion, and an interior rearview mirrorassembly. The mounting portion is configured to mount to the firstattachment member and extends generally upward when mounted to the firstattachment member. The mounting portion has a second attachment member.The head portion is at an upper portion of the mounting portion andextends generally horizontally and rearwardly from the upper portionwith respect to the vehicle when the mounting portion is mounted to thefirst attachment member. The head portion comprises electronic circuitryfor at least one accessory. The interior rearview mirror assemblycomprises a mirror casing and a reflective element, and is mountable tothe second attachment member. The head portion of the accessory moduleassembly extends from the upper portion of the mounting portiongenerally above the mirror casing. The head portion is at least one ofviewable and user accessible above the mirror casing when the mirrorassembly is mounted to the second attachment member.

The head portion may be movably attached to the upper portion of themounting portion and may be movable relative to the mounting portion.The head portion may be pivotally mounted to the upper portion of themounting portion and may be pivotable sidewardly relative to themounting portion about a generally vertical pivot axis to adjust theangle of the accessory housing with respect to the driver of thevehicle, and/or may be pivotable upwardly and downwardly relative to themounting portion about a generally horizontal pivot axis to adjust theangle of the accessory housing with respect to the driver of thevehicle.

The head portion may be articulatably mounted to the upper portion ofthe mounting portion and may be articulatable relative to the mountingportion about a pivot axis, wherein the pivot axis comprises a generallyhorizontal pivot axis when the mounting portion is mounted to the firstattachment member. The head portion may be articulatable between amounting orientation or folded orientation, where the head portion ispositioned to be generally along the mounting portion, and an in-useorientation or non-folded orientation, where the head portion extendsgenerally horizontally and rearwardly from the upper portion withrespect to the vehicle when the mounting portion is mounted to the firstattachment member. The head portion may be articulatable to the mountingorientation to facilitate mounting of the accessory module assembly tothe first mirror attachment member. The head portion may extendgenerally horizontally and rearwardly with respect to the vehicle andgenerally above the mirror casing when the mounting portion is mountedto the first attachment member and when the head portion is in thein-use orientation and when the interior rearview mirror assembly ismounted to the second mounting member. The accessory module assembly maycomprise a biasing element which biases the head portion toward thein-use orientation relative to the mounting portion.

Optionally, the head portion may comprise a display element and/or auser input device associated with the accessory. The display elementand/or user input device may be viewable and/or user accessible abovethe mirror casing when the mirror assembly is mounted to the secondattachment member.

Optionally, the at least one accessory may comprise at least twoaccessories. The accessories of the head portion may at least comprise acompass sensor and a compass display, or a microphone and a user inputdevice (where the accessory module may provide a vehiculartelecommunication function and/or a telephonic function), or a userinput device and a garage door opener device (where the garage dooropener device is operable to actuate a garage door opener for opening agarage door) or the like.

According to another aspect of the present invention, an accessorysystem for a vehicle comprises a vehicle windshield having a firstattachment member affixed thereto, an accessory module assemblycomprising a mounting portion and a head portion, and an interiorrearview mirror assembly. The mounting portion is configured to mount tothe first attachment member and to extend generally upward when mountedto the first attachment member. The mounting portion has a secondattachment member. The head portion is pivotally attached to themounting portion and houses electronic circuitry of at least oneaccessory. The interior rearview mirror assembly comprises a mirrorcasing and a reflective element and is mountable to the secondattachment member. The head portion of the accessory module assemblyextends from the mounting portion generally above the mirror casing,such that the head portion is viewable and/or user accessible above themirror casing when the mirror assembly is mounted to the secondattachment member.

According to another aspect of the present invention, an accessorysystem for a vehicle comprises a vehicle windshield having an attachmentmember affixed thereto, an accessory module assembly and an interiorrearview mirror assembly. The accessory module assembly comprises amounting portion for mounting the accessory module assembly to theattachment member, and a head portion for housing electronic circuitryassociated with at least one accessory. The head portion isarticulatably mounted to the mounting portion and is articulatablerelative to the mounting portion between a folded orientation, whereinthe head portion is folded generally along the mounting portion, and anon-folded orientation, wherein the head portion extends generally fromthe mounting portion. The interior rearview mirror assembly comprises amirror casing and a reflective element, and is mountable to the mountingportion of the accessory module assembly.

According to yet another aspect of the present invention, an accessorymodule assembly includes a loading element/device, which functionsgenerally to move and load the accessory module or a housing of theaccessory module toward and against the windshield in a generallyperpendicular motion with respect to the interior surface of thewindshield. The loading device loads the accessory module against thewindshield to maintain a tight and close interface between the accessorymodule and the windshield.

The accessory module may comprise a mounting portion which is attachableat a windshield portion of the vehicle and a housing for housing atleast one accessory. The loading device or loading element may beconfigured to load the housing toward and against the windshield alongthe mounting portion in a generally perpendicular motion with respect tothe interior surface of the windshield.

In one form, the loading device includes a ratcheting device whichratchets the accessory module toward engagement with the windshield. Theratcheting device may include a plurality of teeth or the like oncorresponding portions of a body of the accessory module and anextender, which may mount to and extend from a mirror mounting button ona windshield. The corresponding teeth provide ratcheting of the modulebody toward and against the windshield, while also substantiallylimiting or precluding movement of the module body away from thewindshield.

In another form, the loading device may include a pivotable hinge devicewhich pivots the accessory module body toward engagement with thewindshield.

The accessory module of the present invention may include one or moreaccessories and controls and may include a display, indicator and/oruser interface buttons or switches or the like. The accessory module mayinclude an electrical connection to the vehicle power and controls. Theelectrical connection may be connected during ratcheting or loading ofthe accessory module toward and against the windshield, such as via asnap connection, press contact or other means of connecting electricalcomponents within the accessory module to the electrical system of thevehicle.

The accessory module may also include an electrical connector forconnecting the electrical components or circuitry of the mirror head asthe mirror head is mounted to the accessory module. The accessory modulemay include a pin connector or the like extending through and from aball member, such that electrical connection is made as the mirror headis snapped or otherwise secured to the ball member.

According to another aspect of the present invention, an accessorymodule for a vehicle comprises a housing for housing at least oneaccessory of the vehicle and a pivotable hinge device positionable at aheadliner portion of the vehicle. The housing is pivotably mounted atthe pivotable hinge device, which is configured to pivot the housingtoward and into engagement with a windshield of the vehicle. The hingedevice is configured to substantially lock the housing into engagementwith the windshield.

The accessory module may include a mirror attachment member at thehousing for attaching an interior rearview mirror assembly when thehousing is substantially locked into engagement with the windshield. Theaccessory module may also include an electrical connector for connectingto at least one electrical component or circuitry of the interiorrearview mirror assembly. The electrical connector may connect the atleast one electrical component or circuitry of the interior rearviewmirror assembly as the interior rearview mirror assembly is mounted tothe mirror attachment member.

The hinge device may be biased to urge the housing toward and againstthe windshield. The hinge device may comprise a spring-loaded hingedevice, which urges and substantially locks the housing toward and intoengagement with the windshield.

Therefore, the present invention provides an accessory module which isreadily installed and/or loaded against the windshield of the vehicle.The accessory module is mounted to the windshield via connection to astandard attachment member, such as a mounting button, at thewindshield, and then urged or loaded against the windshield viagenerally perpendicular movement of the accessory module toward thevehicle. The accessory module thus provides an attachment element whichis familiar and readily acceptable to an assembly plant operator. Also,the accessory module of the present invention may provide for adeproliferation of part numbers at a vehicle assembly plant, since fewerpart numbers for the interior rearview mirror assemblies may be needed.For vehicles with different accessories selected, a different assemblymodule may be mounted to the mounting attachment or button at thewindshield.

Also, the accessory module or accessory module assembly of the presentinvention provides a head portion which may extend generally rearwardlyfrom a mounting portion mounted to the vehicle and may extend generallyabove the rearview mirror when the rearview mirror is mounted to themounting portion, such that the head portion is viewable and/or useraccessible generally above the rearview mirror. The head portion may bemovably or pivotally or articulatably mounted to the base or mountingportion, which is mountable to a mounting member or button at thewindshield. The head portion may pivot or articulate to facilitateinstallation of the base portion and accessory module assembly to themounting member, whereby the head portion may unfold or pivot to extendgenerally rearwardly from the base portion and generally above themirror assembly. The accessory module thus may enhance the assembly orinstallation process for the accessory module to the vehicle windshieldat the vehicle assembly plant. The accessory module may include a headportion which is selected to provide the desired accessory, accessories,function or functions and a common mounting portion or base.

These and other objects, advantages, purposes and features of thepresent invention will become apparent upon review of the specificationin conjunction with the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a side elevation and partial sectional of an interior rearviewmirror assembly and accessory module in accordance with the presentinvention;

FIG. 2 is a perspective view of a mirror mounting button on an interiorsurface of a window;

FIG. 3 is a perspective view of an extension of the present invention asmounted on the button of FIG. 2;

FIG. 4 is a perspective view of a mirror mount on the extension of FIG.3;

FIG. 5 is a perspective view of an accessory module body in accordancewith the present invention on the extension of FIGS. 3 and 4;

FIG. 6 is a side elevation of the accessory module of FIG. 5, with aninterior rearview mirror mounted to the mirror mount in accordance withthe present invention;

FIG. 7 is a sectional view taken along the line VII-VII in FIG. 5,showing the accessory module as the module body is being moved along theextension;

FIG. 8 is a sectional view similar to FIG. 7, showing the accessorymodule body mounted to the extension and loaded against the window;

FIG. 9 is a sectional view taken along the line IX-IX in FIG. 5, showingan image sensor mounted within the accessory module;

FIG. 10 is a lower plan view of an accessory module of the presentinvention similar to the accessory module of FIGS. 5-9;

FIG. 11 is a block diagram of examples of accessories and functions ofan accessory module in accordance with the present invention;

FIGS. 12A and 12B are side elevation and partial sectional views of analternate embodiment of the accessory module of the present invention;

FIGS. 12C and 12D are front elevations of alternate embodiments of theaccessory module and mirror assembly of FIGS. 12A and 12B, as lookingforwardly with respect to the vehicle;

FIG. 13 is a perspective view of another alternate embodiment of anaccessory module in accordance with the present invention;

FIG. 14 is a side elevation and partial sectional view of an alternateembodiment of an accessory module in accordance with the presentinvention, which is pivotable into engagement with the windshield;

FIG. 15 is a side elevation and partial sectional view of anotheralternate embodiment of an accessory module in accordance with thepresent invention, which is pivotable into engagement with thewindshield;

FIG. 16 is a lower plan view of the accessory module of FIG. 15;

FIG. 17 is a perspective view of another alternate embodiment of anaccessory module in accordance with the present invention which extendsalong a headliner of the vehicle;

FIG. 18 is a side sectional view of another alternate embodiment of anaccessory module in accordance with the present invention;

FIG. 19 is a perspective view of a platform for mounting electricalcircuit boards or other electrical connections suitable for use with thepresent invention;

FIG. 20 is a sectional view of another alternate embodiment of anaccessory module in accordance with the present invention, with aremovable circuit board;

FIG. 21 is a sectional view of another alternate embodiment of anaccessory module in accordance with the present invention, with aremovable circuit board;

FIG. 22 is a perspective view of another alternate embodiment of anaccessory module in accordance with the present invention, withremovable or interchangeable side pods;

FIG. 23A is a perspective view of another alternate embodiment of anaccessory module in accordance with the present invention;

FIG. 23B is a sectional view of the accessory module taken along theline B-B in FIG. 23A;

FIGS. 24A and 24B are perspective views of another accessory module inaccordance with the present invention;

FIGS. 25A-25C are perspective views of a mirror assembly mounted on theaccessory module of FIGS. 24A and 24B;

FIGS. 26A-26D are views of another accessory module in accordance withthe present invention;

FIG. 27 is a side elevation and partial sectional view of anotheraccessory module in accordance with the present invention;

FIG. 28 is a partial sectional view of an extender and fastener for theaccessory module of FIG. 27;

FIG. 29 is a forward facing view of the accessory module and interiorrearview mirror assembly of FIG. 27;

FIG. 30 is a perspective view of a printed circuit board suitable foruse with the accessory module of FIGS. 27 and 29;

FIG. 31 is a top plan view of a vehicle incorporating the accessorymodule of FIGS. 27-30;

FIG. 32 is a side elevation of the vehicle of FIG. 31;

FIG. 33 is a side elevation of another accessory module in accordancewith the present invention;

FIG. 34 is a side elevation of yet another accessory module inaccordance with the present invention;

FIG. 35A is a plan view of a windshield button useful with an accessorymodule of the present invention;

FIG. 35B is a side elevation of the windshield button of FIG. 35A;

FIG. 36 is a side elevation and partial sectional view of a mountextension of the present invention adapted to mount on the windshieldbutton of FIGS. 35A and 35B;

FIGS. 37A and 37B are a side view and a top view of another mountingbutton useful with an accessory module of the present invention;

FIGS. 38A and 38B are perspective views of a mount extension and buttonof an accessory module in accordance with the present invention;

FIG. 38C is a side elevation and partial sectional view of the accessorymodule of FIGS. 38A and 38B;

FIG. 38D is a sectional view taken along the line D-D in FIG. 38C;

FIGS. 39A and 39B are a plan view and a side view of another mountingbutton useful with an accessory module of the present invention;

FIGS. 40A and 40B are a plan view and a side view of a mount extensionof the present invention adapted to mount on the windshield button ofFIGS. 39A and 39B;

FIG. 41 is a partial sectional view of the retaining tab of the mountextension of FIGS. 40A and 40B as mounted on the button of FIGS. 39A and39B;

FIG. 42A is a plan view of another mounting button useful with anaccessory module of the present invention;

FIG. 42B is a sectional view of a retaining tab or hook of the buttontaken along the line B-B in FIG. 42A;

FIGS. 43A and 43B are a plan view and a side view of a mount extensionof the present invention adapted to mount to the button of FIG. 42A;

FIG. 43C is a sectional view taken along the line C-C in FIG. 43B;

FIG. 44 is a side and partial sectional view of the retaining tab of thebutton of FIGS. 42A and 42B and the spring and hook of the mountextension of FIGS. 43A-C, as retained together;

FIGS. 45A and 45B are a plan view and a side view of a windshieldmounting member with an extension at an end thereof having a mountingbutton for a mirror;

FIGS. 46A-C are a plan view, a side view and an end view of a mountingbutton useful with an accessory module of the present invention;

FIGS. 47A and 47B are an end view and a side view of a mount extensionof the present invention adapted to mount to the mounting button ofFIGS. 46A-C;

FIG. 48 is a side elevation and partial sectional view of the retainingtabs or hooks of the mounting button of FIGS. 46A-C and the mountextension of FIGS. 47A and 47B, as retained together;

FIGS. 49A and 49B are a plan view and a side view of a mounting buttonuseful with an accessory module of the present invention;

FIGS. 50A and 50B are a plan view and a side view of a mount extensionof the present invention adapted to mount to the mounting button ofFIGS. 49A and 49B;

FIG. 51 is a plan view of a retainer for securing the mount extension ofFIGS. 50A and 50B to the button of FIGS. 49A and 49B;

FIGS. 52A and 52B are a plan view and a side view of a mounting buttonarrangement for mounting an accessory module of the present invention tothe windshield;

FIG. 53 is a side elevation and sectional view of a mount extension andaccessory module of the present invention adapted for mounting to thebutton arrangement of FIGS. 52A and 52B;

FIGS. 54A and 54B are a plan view and a side view of another mountingbutton arrangement for mounting an accessory module of the presentinvention to the windshield;

FIG. 55 is a side elevation and sectional view of a mount extension andaccessory module of the present invention adapted for mounting to thebutton arrangement of FIGS. 54A and 54B;

FIGS. 56A and 56B are a plan view and a side view of another mountingbutton arrangement for mounting an accessory module of the presentinvention to the windshield;

FIG. 57 is a side elevation and sectional view of a mounting tab forsecuring the accessory module to the button arrangement of FIGS. 56A and56B;

FIGS. 58A-D are perspective views of another accessory module inaccordance with the present invention;

FIG. 59 is a perspective view of another accessory module of the presentinvention with an electrochromic mirror assembly mounted thereto;

FIG. 60 is a perspective view of another accessory module of the presentinvention with a prismatic mirror assembly mounted thereto;

FIGS. 61A-I are perspective views of other embodiments of an accessorymodule in accordance with the present invention;

FIGS. 62A and 62B are perspective views of an articulatable accessorymodule of the present invention, with an interior rearview mirrorassembly attached thereto;

FIGS. 63A-D are perspective views of the articulatable accessory moduleof FIGS. 62A and 62B, with the interior rearview mirror assembly removedtherefrom;

FIGS. 64A and 64B are perspective views of a base or mounting portionuseful with the articulatable accessory module of FIGS. 62A, 62B and63A-D;

FIG. 64C is a perspective view of a support or stiffening member usefulwith the articulatable accessory module of FIGS. 62A, 62B and 63A-D;

FIG. 65 is a perspective view of another articulatable accessory modulein accordance with the present invention;

FIGS. 66A-C are plan views of an accessory housing for an accessorymodule in accordance with the present invention;

FIGS. 67A-D are perspective, side and plan views of an accessorymounting module of an accessory module in accordance with the presentinvention; and

FIGS. 68A-F are plan and perspective views of the accessory module andaccessory housing and mounting module of FIGS. 66A-C and 67A-D.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring now to the drawings and the illustrative embodiments depictedtherein, an accessory module 10 is mountable to and against a windshield12 and is positioned generally between an interior rearview mirrorassembly 14 and the windshield 12 (FIGS. 1 and 5-10). The accessorymodule 10 is mounted toward and against an interior surface 12 a of thewindshield in a manner which allows the body 10 a of the accessorymodule to move generally perpendicularly relative to the interiorsurface 12 a and to be loaded against or biased toward and to thewindshield, as discussed in detail below, and such as disclosed incommonly assigned U.S. provisional application Ser. No. 60/381,314,filed May 17, 2002; Ser. No. 60/374,724, filed Apr. 23, 2002; Ser. No.60/364,008, filed Mar. 14, 2002; and Ser. No. 60/350,965, filed Jan. 31,2002, which are all hereby incorporated herein by reference. Accessorymodule 10 may include one or more accessories, such as a rain sensor, aforward facing image sensor, a headlamp control, a temperature sensor,an antenna, a microphone, a speaker, a rearward facing image sensor, asecurity system, a display, indicators, user interface buttons, switchesor the like, interior lights, GPS controls, a humidity sensor, a compasssensor, an electrochromic (EC) mirror control, a remote keyless entrycontrol, a toll collection control, and/or any other accessories orcontrols of the vehicle, such as discussed below.

Accessory module 10 is mounted to the vehicle windshield and includes anextender 16, which is mounted to and extends from a mounting attachment18 (such as a conventional mirror mounting button) at the windshield 12.As shown in FIG. 2, mounting button 18 is bonded or otherwise secured tointerior surface 12 a of windshield 12. A mounting portion 16 a of theextender 16 is slid or otherwise moved into engagement with the button18. Extender 16 includes a second mounting attachment or button 16 b(FIG. 3) at its outer end for receiving a mirror mount 20 thereon (FIG.4). The button-on-button attachment may be similar to the attachmentsdisclosed in U.S. Pat. No. 4,930,742, which is hereby incorporatedherein by reference. The extender 16 provides a rigid extension of amounting button from the interior surface of the windshield for mountingthe mirror assembly to the windshield.

Extender 16 provides a structural, load bearing connection between theattachment member 18 and the mount 20 of the support arm 22 (FIG. 6) ofthe mirror 14 (or the mount of the mirror, as shown in FIG. 1) that isattachable to the accessory module. As such, extender 16 is preferablyfabricated of a rigid, load bearing material, such as a metallicmaterial or metal, such as a die cast metallic material, such as diecast zinc or die cast aluminum or the like. Extender 16 may be a solidmember, or may include channels or passageways therealong, which mayinclude a wireway passage, such as for wirings to pass therethrough. Thelength of extender 16 is sufficient for the housing or body 10 a of theaccessory module to slide over, but not so long as to create anexcessive moment arm. Preferably, the length of extender 16 is selectedto be approximately 0.5 inches to 3.5 inches, more preferably,approximately 0.75 inches to 2.5 inches, and, most preferably,approximately one to two inches. The extender 16 also providesstructural support for the body of the accessory module 10.

Extender 16 is formed and adapted to mount to a particular mountingattachment member 18 at the windshield at one end of extender 16. Theopposite end of the extender 16 is formed as a replication of theattachment member or button at the windshield of that particularvehicle. The extender of the present invention thus provides a mountingattachment member 16 b for mounting a mirror mount thereto in the samemanner as the mirror mount would mount to the attachment member 18 atthe windshield. The extender may have some or all of the plastics of theaccessory module molded to the extender. Optionally, the extender may bedie cast, such as a die cast metal (preferably die cast zinc or die castaluminum) or otherwise formed, such as by molding of an engineeringplastic, such as a filled nylon engineering plastic or the like, and maybe formed as a structural skeleton member, without affecting the scopeof the present invention. A cover, such as a plastic or polymeric cover,may be snapped or otherwise affixed or attached to the skeletonextender, without affecting the scope of the present invention.

Advantageously, and for example, different extenders may be used toadapt the accessory module for applications in different vehicles, suchas vehicles manufactured by different vehicle manufacturers. Forexample, the extender may be die cast, such as in a metal die castingtool, which requires significantly less tooling costs than molds or thelike, such that in order to adapt the accessory module for anapplication in another vehicle line or manufacturer (where the mountingattachment member or button may differ from one another), a new extendermay be formed such that the mounting portion 16 a of the new extenderaccepts the button on the new vehicle and the second mounting attachmentmember 16 b matches or substantially replicates the button of the othervehicle, while the body 10 a of the module 10 remains the same orsubstantially the same. This provides a low cost change to the moduleand allows for the same module body to be used in different vehicles.Accordingly, a common accessory module body may be sold to differentvehicle manufacturers with an appropriate extender combined with thebody. This provides substantially reduced costs for differentapplications, since new injection molding tools are not required to molda new accessory module body for each application or vehicle line orvehicle manufacturer.

Optionally, such as for aftermarket applications, the extender may beformed or die cast to have a mounting portion 16 a for one vehicle (suchas, for example, a vehicle manufactured by Ford Motor Company), and amounting attachment member or button 16 b for another vehicle (such as,for example, a vehicle manufactured by General Motors Corporation orVolkswagen or Audi or BMW). This allows a person in the aftermarket toinstall the accessory module in the vehicle and to replace the mirror inthe vehicle with a mirror designed for a different vehicle.

As best shown in FIGS. 7 and 8, the body 10 a of accessory module 10 isslid over and along extender 16 until a portion of the body 10 a ofaccessory module 10 is engaged with and loaded toward the interiorsurface 12 a of windshield 12. The mirror mount 20 is mounted to thesecond attachment member 16 b at the end of extender 16. Interiorrearview mirror 14 is pivotally mounted to a ball member 20 a extendingfrom mirror mount 20 in a known manner. As shown in FIG. 6, interiorrearview mirror 14 may include a pivotable mounting arm 22 whichpivotally receives ball member 20 a therein. However, interior rearviewmirror 14 may otherwise pivotally receive ball member 20 a in a socket(not shown) in the casing 24 of mirror 14, or may otherwise mount to theend of mirror mount 20 or extender 16, without affecting the scope ofthe present invention. Preferably, the mirror and accessory mountingcomponents provide a breakaway type connection or mount, such as thetypes disclosed in U.S. Pat. Nos. 6,172,613; 6,087,953; 5,820,097;5,377,949; and/or 5,330,149, which are hereby incorporated herein byreference.

The body 10 a of accessory module 10 includes a structural member 26 anda cover 28, which together define a cavity 30 within accessory module 10for mounting or receiving accessories therein. Structural member 26includes a plate portion 32 and a mounting portion 34 extending fromplate portion 32. The mounting portion 34 of structural member 26provides an opening or passageway 34 a for receiving extender 16therethrough. In the illustrated embodiment, mounting portion 34includes a plurality of teeth or projections 34 b extending from atleast a portion of the mounting portion 34 a, while extender 16 likewiseincludes a plurality of teeth or projections 16 c extending outwardlytherefrom. The corresponding teeth 34 b, 16 c engage one another asstructural member 26 is pressed along extender 16 and toward windshield12 to provide a ratcheting of body 10 a toward and against windshield12. The teeth are angled to allow for movement of body 10 a alongextender 16 toward the windshield, yet substantially preclude movementof body 10 a away from the windshield, such that accessory module 10 isretained tightly or snugly against the interior surface 12 a ofwindshield 12.

Preferably, the teeth 34 b are positioned along a flexible tab orportion (not shown) of mounting portion 34 of structural member 26 toallow the tab to be flexed radially outward and away from extender 16 toallow for removal of body 10 a of accessory module 10 from thewindshield for service, maintenance or replacement. Preferably, the tabor other ratcheting or loading device may be accessible from the outerportion of the module (such as at the second button 16 b) to allow foreasy release of the ratcheting or loading device. The tab may be flexedusing a screwdriver or other tool inserted between the tab and extender16 or via any other means to disengage the tab from the extender.Although shown and described as having a plurality of teeth engagingother teeth to ratchet and retain the module body against thewindshield, other means for providing a generally perpendicular movementof the module body toward and against the windshield may be implemented,such as a threaded fastener retaining the module body to an extender orthe like, without affecting the scope of the present invention.

Preferably, structural member 26 includes a retaining tab 36 (FIGS. 7and 8), which loads against the mounting button 18 to secure the jointbetween the module and the button to minimize vibration of the module.In the illustrated embodiment, the retaining tab 36 is biased toward thebutton, such that as the structural member 26 is loaded against thewindshield, the retaining tab 36 loads and is biased against themounting button 18. Preferably, in order to further secure the accessorymodule to the button 18, the housing or structural member maysubstantially encase the extender 16, such that the housing orstructural member closes over the slotted portion of the mountingportion 16 a of extender 16, which allowed the extender to slide overthe mounting button 18 on the windshield 12. The extender 16 is thussubstantially precluded from sliding off from the mounting button 18.

The cover 28 and structural member 26 of module 10 may snap or otherwisebe secured together to define the cavity 30. Optionally, the cover 28may define the plate along the interior surface of the windshield, suchthat the cover is attachable to the structural member at each end of amounting portion of a structural member positioned or mounted around theextender. Optionally, as shown in FIG. 7, accessory module 10 mayinclude a sealing or cushioning member or strip 27 around the plate orcover portion of the module to cushion and/or seal the body 10 a ofaccessory module 10 at the interior surface 12 a of windshield 12, inorder to limit or substantially preclude vibration or rattle between themodule and the windshield. The sealing or cushioning member may comprisea soft material, such as an elastomeric material, such as athermoplastic rubber material, and may be sufficiently resilient anddimensioned to provide a cushion between the module and the windshieldand may take on the form of the windshield to further seal and cushionthe accessory module at the windshield and to reduce noise and vibrationof the accessory module. The cushioning member may cushion the moduleagainst the windshield and may take on the form of the windshield suchthat the cushioning member functions to adapt the module to differentangles or curvatures of the windshield as the module is moved toward andloaded against the windshield.

As shown in FIG. 7, accessory module 10 may include an accessory 38,such as a rain sensor (such as the type disclosed in commonly assignedU.S. Pat. Nos. 6,320,176; 6,353,392 and 6,313,454, which are herebyincorporated herein by reference), an image sensor (such as a videocamera, such as a CMOS imaging array sensor, a CCD sensor or the like,such as the types disclosed in commonly assigned, U.S. Pat. Nos.5,550,677; 6,097,023 and 5,796,094, which are hereby incorporated hereinby reference), a temperature sensor (such as a contact temperaturesensor for measuring the temperature at or of the windshield), anantenna, or any other sensor or device which is desirable to mount intight or close engagement with the windshield. The accessory or sensor38 protrudes through an opening 32 a in the plate 32 and may include abiasing member or spring 40 which biases the accessory outward fromaccessory module 10 and toward windshield 12. Accordingly, as theaccessory module is loaded toward and against the windshield, theaccessory 38 contacts the interior surface 12 a of the windshield 12 andis pressed against the surface via biasing member 40, as shown in FIG.8. The accessory 38 is thus optically coupled or positively coupled tothe windshield and retained in intimate contact with the windshield. Theaccessory 38 may further include a sealing member (not shown) around acircumference of the accessory to engage the interior surface of thewindshield and substantially seal the accessory to that portion of theinterior surface of the windshield to protect that area of thewindshield and the accessory from contaminants, such as dirt, dust,smoke, moisture or the like from affecting the performance of theaccessory.

Although shown and described as coupling the accessory to or loading theaccessory against the windshield, the accessory module of the presentinvention may alternately provide an accessory which is stood off fromor spaced from the windshield. Such an arrangement may be suitable foran antenna or the like, since the antenna reception may be interferedwith by the windshield, which may comprise an electrically conductivewindshield or the like. The accessory module thus may provide a standoff antenna location to limit or substantially preclude suchinterference.

As shown in FIG. 9, accessory module 10 may also or otherwise include anaccessory 42 which is desirable to be oriented in a generally horizontalposition or at a desired angle with respect to the windshield orhorizontal. Such an accessory may comprise a forward facing image sensoror camera (preferably a video camera, such as a CMOS imaging arraysensor, a CCD sensor or the like, such as the types disclosed incommonly assigned, U.S. Pat. Nos. 5,550,677; 6,097,023 and 5,796,094,which are hereby incorporated herein by reference) or a compass sensoror the like. The forward facing image sensor may be useful in an opticalrain sensor, such as the types disclosed in U.S. Pat. Nos. 6,353,392;6,320,176 and 6,313,454, which are hereby incorporated herein byreference, a headlamp control system, a lane departure detection orwarning system, such as the types described in U.S. provisionalapplications, Ser. No. 60/433,700, filed Dec. 16, 2002, and Ser. No.60/377,524, filed May 3, 2002, which are hereby incorporated herein byreference, an adaptive cruise control system, a sign recognition systemand warning system, a night vision system, a pedestrian detectionsystem, a vehicle classification identification system, a vehiclecompatibility detection system, a pre-crash avoidance system, anemergency response image capture system, an environmental detectionsystem (such as for detecting rain, fog, or the like), an ambient lightlevel detection system, a vehicle relative position (such as fordetecting the roll, yaw or the like of the vehicle), a compasscalibration system (where the image captured from the image sensor ismonitored to determine changes in direction of the vehicle to track thedirection the vehicle is heading), a GPS system (where the imagecaptured from the image sensor is monitored to determine the location ofthe vehicle when a signal from the GPS satellite(s) is interrupted), anelectronic toll collection system, or any other system, withoutaffecting the scope of the present invention.

Preferably, accessory module 10 includes a mounting device 44 for suchan accessory 42, which is adjustable to set the accessory 42 to behorizontal or to be at the desired angle regardless of the angle of thewindshield to which accessory module 10 is loaded. Mounting device 44provides a mounting platform or structure 44 a for securing accessory 42within cavity 30 of body 10 a of accessory module 10. Mounting device 44may be positioned at and partially through an opening 32 b of plate 32to provide a passageway from accessory 42 to the windshield 12.

The mounting device 44 may be adjustable relative to the structuralplate or member 32 or to the housing 28 of accessory module 10 to alignor orient the accessory 42 at the desired orientation. For example, themounting device 44 may include a spherical member or ball joint (notshown) which allows for rotation or pivotal movement of the accessory 42relative to housing 28 or plate 32 of accessory module 10 into theproper alignment or orientation (such as via rotation or pivotalmovement of a portion of the platform 44 a). Mounting device 44 mayinclude an outer sealing member 44 b which engages and seals against theinterior surface 12 a of windshield 12 to provide a sealed chamber 44 cin which the accessory 42 is positioned. The ball joint may also includea wiping seal along the spherical member to seal the chamber 44 c. Thesealing members limit or substantially preclude dirt, dust, moisture,smoke or other contaminants from contacting or otherwise affecting theoperation of accessory 42 of accessory module 10.

Although it is desirable to substantially seal an accessory within theaccessory module, it may, in some cases, be desirable to provide aventilation element, such as a ventilation passage, such as an airpassage between the interior surface of the windshield and the componentor a surface of the component closest to the windshield, in order toprovide cooling of the accessory via air flow through the passage.Accordingly, the accessory module of the present invention may includesuch a passageway along the interfacing surface against the windshield.The surface(s) of the accessory module facing the windshield may includeheat dissipating elements, such as, for example, heat dissipaters, finsor the like.

Many electronic components are rated at a high temperature from astationary soak application. However, such components may not functionin an optimal manner when at these higher temperatures. Optionally,forced cooling may be provided to the accessories or components of theaccessory module, such as by a fan or the like (preferably, a lowcurrent fan, a solar powered fan or the like) to rapidly cool theaccessories or components of the accessory module. The forced coolingelement may be activated when the ignition of the vehicle is activatedand then time out or deactivate a period of time following activation.The forced cooling element thus functions to rapidly lower thetemperature of the components or accessories, so that they may functionoptimally, even after prolonged soaking in extreme temperatures, such aswhile the vehicle has been parked, such as on a sunny day.

Optionally, a surface of the accessory module closest to the windshieldmay be treated, such as by a deposition, painting, film, adhesivecoating or the like, to provide a reflecting characteristic to themodule, so as to reflect infrared radiation or the like which the modulemay be exposed to at the windshield. The air passage and/or treatmentmay thus reduce the effects of sun loading or thermal loading on theaccessory module.

Accessory module 10 may further include electrical connections for anyelectrical components within accessory module 10 or at or within mirror14. For example, the mounting button 18 and/or second button 16 b mayinclude electrical contacts which engage corresponding contacts at themounting portion 16 a of extender 16 and/or mirror mount 20,respectively, as the mounting portions are slid onto the buttons, suchthat electrical signals are provided to accessory module 10 and/or tomirror 14 via the contacts. The mounting button 18 may be electricallyconnected to a power source of the vehicle or other electrical system orthe like via an electrical connector or wiring harness or via contactinga conductor at the windshield, such as a conductor which is integralwith the glass of the windshield or deposited on the interior surface ofthe windshield and which is connected to the vehicle power source orother electrical system of the vehicle. The mirror mount 20 may theninclude an electrical connector or wiring which extends through anopening or passageway (not shown) in ball member 20 a and into thehousing 24 of mirror 14 for connection to electrical components orcircuitry within housing 24. The electrical connector may extend fromthe ball member and be sufficiently rigid to provide a snap connectionor the like to a corresponding connector positioned within housing 24 ashousing 24 is snapped or otherwise secured to ball member 20 a.

Optionally, the electrical connections to accessory module 10 may beprovided via other means, such as other sliding means, rotatingcontacts, screw or fasteners (such as tightening of a screw at thebutton to make an electrical contact or connection), or plug typeconnectors or contacts (such as an electrical contact of a spring loadedcontact on the housing contacting a conductor at the windshield, such asa conductor which is integral with the glass of the windshield ordeposited on the interior surface of the windshield), such that theaccessory module makes its electrical connections as the body 10 a isratcheted or loaded against the windshield. Also, the electricalconnections to the mirror 14 may be provided via other means, such asother sliding means, rotating contacts, screw or fasteners (such astightening of a screw at the second button to make an electrical contactor connection), or plug type connectors or contacts, such that themirror makes its electrical connections as it is mounted to theextender.

Typically, the mounting button 18 is provided on the windshield by theglass or windshield manufacturer, such that the windshield is shipped tothe vehicle assembly plant with the button affixed thereon. Preferably,the mirror manufacturer may then supply the accessory module, whichincludes the extender 16 and the body 10 a, along with the mount 20 andmirror 14, as a single package to be mounted to the button 18 on thewindshield at the vehicle assembly plant. The structural component 26and housing 28 may be only partially installed onto the extender 16 asshipped to the assembly plant, such that the extender may be secured tothe button prior to the module body being moved or loaded toward andagainst the windshield. This last step may be performed at the vehicleassembly plant after the extender has been secured to the button andafter any electrical components or connections have been provided at ornear the module. As the module body is then ratcheted or otherwise movedtoward tight engagement with the windshield, the components, such as theimage sensor, rain sensor and/or the like, may also be loaded againstthe windshield while the electrical connections to the vehicleelectrical and/or control system may be simultaneously made.

Optionally, the extender may be made and supplied as a separate part orcomponent from the accessory module, without affecting the scope of thepresent invention. However, such an approach may be less desirable,particularly with respect to the assembly plant operations.

Optionally, the accessory module may be provided with an electricalconnector 70 (FIG. 1), such as a wire and multi-pin connector or thelike, extending from the accessory module for connecting to or plugginginto a corresponding connector provided at a headliner or overheadconsole of the vehicle. For example, an overhead console 71 of thevehicle may extend toward the glass or window area, such that theoverhead console may be at or close to or adjacent to the windshield,such as described in U.S. Pat. No. 6,445,287, and in U.S. patentapplication Ser. No. 10/232,122, filed Aug. 30, 2002, now U.S. Pat. No.6,975,215, which are hereby incorporated herein by reference, and mayprovide a feed or outlet or socket or connector 72 for connecting theelectrical connector 70 of the accessory module thereto. Such aconnection arrangement allows the vehicle manufacturer to provide anoutlet at the overhead console or headliner of the vehicle to provideelectrical connection and/or communication between various accessoriesor systems or power source of the vehicle and the accessory moduleand/or interior rearview mirror assembly, whereby the vehiclemanufacturer does not have to provide a cable or wiring harnessextending down from the overhead console or headliner, as is typicallydone with conventional mirror assemblies and the like. The accessorymodule manufacturer and/or supplier may thus provide the electricalconnector or plug for extending to and connecting to the connector oroutlet at the overhead console or headliner of the vehicle when theaccessory module is mounted at the windshield of the vehicle. Thisallows for enhanced freedom in the harness and/or connection between theaccessory module and the overhead console or headliner, whereby theaccessory module may provide a high speed connection or different wiresor cables as desired or required to power and/or drive the particularaccessories and/or the like within the accessory module and/or themirror assembly.

It is further envisioned that such a connector or outlet or plug orsocket or the like may be provided at an overhead console or headlinerof a vehicle for connection to an electrical wire or connector of othermodules or components, such as a connector from an interior rearviewmirror assembly or other type of accessory module or a separatewindshield electronic module or the like. The connector at the overheadconsole or headliner may provide for electrical connection to items orcomponents or accessories of an accessory module, mirror assembly,windshield electronic module or the like which may share circuitry withother items or components or accessories of the vehicle, such as at theoverhead console or headliner, and/or may provide for electrical powerconnection to the accessory module, mirror assembly, windshieldelectronic module or the like, and/or may provide for electricalcommunication to or control of items, components or accessories of theaccessory module, mirror assembly, windshield electronic module or thelike, such as from another accessory or system of the vehicle.

Optionally, the accessory module may include a rechargeable battery orpower source, such as a rechargeable battery pack (such as showngenerally at 74 in FIG. 6) or the like, which may provide power to theaccessory or accessories of accessory module 10 and/or of mirrorassembly 14. The accessory module may then comprise a stand alonebattery operated accessory module and may not require electricalconnection to a vehicle power source or the like. Preferably, therechargeable battery pack is attachable to and detachable from theaccessory module to ease removal and recharging of the battery pack whenthe power supply of the battery pack is low. The accessory module mayinclude contacts or connectors at a battery pack receiving portion ofthe module which electronically connect to the accessories or circuitboard of the accessory module (similar electrical connections mayelectronically connect the accessory module to one or more accessoriesof the interior rearview mirror assembly). The contacts or connectorsmay contact or connect to corresponding contacts or connectors at thebattery pack when the battery pack is attached to the battery packreceiving portion of the module, such that the rechargeable battery packis electronically connected to the accessories or circuit board of theaccessory module when attached to the accessory module.

The rechargeable battery pack may include a plug or connector which isconfigured or adapted to plug into a vehicle power jack or outlet, suchas a cigarette lighter type of outlet in the vehicle. The connector orplug may be molded into or integrated into the battery pack, such thatthe battery pack may be removed or unplugged from the accessory moduleand plugged into the power outlet of the vehicle to recharge the batteryor batteries of the rechargeable battery pack. The accessory module orbattery pack may include a low power indicator which may be activated orilluminated or deactivated when the power level of the battery pack isreduced to a low level whereby the battery pack requires recharging.Also, the batter pack may include a full charge indicator to indicatewhen the battery pack has completed the recharging process while pluggedinto the vehicle outlet.

The battery pack may thus be recharged by the vehicle power source orbattery, such as while the vehicle is being driven or even when thevehicle is not in operation. The recharging process may result in aminimal draw of power from the vehicle, such that the battery pack maybe recharged when the vehicle is not running, but may not significantlydrain the battery or power supply of the vehicle. After the battery packis recharged, the battery pack may be unplugged from the vehicle outletand plugged into or attached to the accessory module to provide power tothe accessory or accessories of the accessory module and/or the mirrorassembly. Optionally, solar panels or the like may be provided as aprimary source for recharging of the battery pack, without affecting thescope of the present invention.

Although shown and described as being attachable to and detachable fromthe accessory module, it is envisioned that a rechargeable battery packin accordance with the present invention may be equally applicable forremovably mounting to a mirror assembly or other module or console ofthe vehicle, in order to provide power to an accessory or accessories ator within the mirror assembly or other module or console of the vehicle.The rechargeable battery pack of the present invention provides arechargeable battery or power source and may be suitable for use with astand alone accessory module, console or mirror assembly, whereby theaccessory module, console or mirror assembly may include variousaccessories, but may not require electrical connection to the vehiclepower source or the like. Optionally, a portion of the accessory module,such as a head portion or the like, may include such a rechargeablebattery pack and may be detachable from the rest of the accessorymodule, whereby the portion of the accessory module may be plugged intoa power outlet of the vehicle to recharge the rechargeable battery packcontained or housed therein.

The accessory module of the present invention may also include one ormore antennae, which may be mounted as a separate component of themodule, or may comprise conductive elements attached to or depositeddirectly onto the surfaces of the structural member or the cover plateof the accessory module. The antenna may be useful for a GPS system, amobile/remote transaction system, such as a smart card system or anelectronic toll collection system or the like, a remote keyless entrysystem, a communication system and/or any other system which maytransmit a signal and/or receive a signal via an antenna.

Accessory module 10 may include any other accessories or componentswhich it would be desirable to have in the general location of theinterior rearview mirror. Because the accessory module is positioned atthe interior rearview mirror and may be electrically coupled to themirror, the accessory module may allow for decontenting of the mirror,such that many accessories, which may have been previously positioned ator within the mirror housing, are positioned at or within the accessorymodule. The mirror may still include lights, electrochromic elements orthe like, and may receive the appropriate electrical signals from theconnection between the mirror and the mount at the extender. However,other electrical components and/or controls and/or circuitry may bemoved to the accessory module of the present invention.

The accessory module of the present invention may include variousaccessories or features, such as shown in FIG. 11. For example, theaccessory module may include one or more displays, such as a textdisplay, an icon display, a display on demand type display, such as avideo or touch screen interface display, a biometric imager, such as forfingerprint authentication or the like, an infrared sensor, such as azonal temperature sensor, such as suitable for an auto climate control,a forward facing image sensor, such as described above, a rearwardfacing image sensor (such as for biometric imaging (such as for facerecognition, iris recognition or the like), seat height or positiondetection, drowsiness detection, safety/restraints object detection andposition, emergency response image capture system, intrusion detectionor the like), an electronic field sensor (such as the type disclosed incommonly assigned U.S. patent application Ser. No. 09/992,119, filedNov. 14, 2001, now U.S. Pat. No. 6,768,420, which is hereby incorporatedherein by reference), a microphone (such as the type disclosed incommonly assigned U.S. Pat. Nos. 6,243,003 and 6,278,377, and/or U.S.patent application Ser. No. 09/466,010, filed Dec. 17, 1999, now U.S.Pat. No. 6,420,975, which are hereby incorporated herein by reference),a speaker, a telematics module (which may include a GPS module orsystem, a wireless communication module or system, an antenna for a GPSor phone or communication system or the like, a human/machine interface(HMI), a display, such as an LED display, dot matrix display, alphanumeric display, video display or the like, a microphone and/ormicrophone circuits, which may be operable for speech or voicerecognition, noise reduction or noise cancellation), a speaker, arechargeable battery pack, a humidity sensor, a compass sensor and/orcompass control, an electrochromic (EC) control, a remote keyless entrysensor, a tire pressure monitoring system (TPMS), an electronic tollcollection sensor, an emergency or roadside assistance system, anintelligent headlamp control and memory, user interface controls (suchas buttons, switches or the like for controlling various accessories ofthe vehicle, such as a sunroof, a communication system, lamps, securitysystems, displays or the like) or any other accessories, sensors,lights, indicators, displays, or the like which may be suitable formounting or positioning at or within the accessory module. The accessorymodule may also provide for glare reduction characteristics of therearview mirror.

For example, the accessory module and/or the mirror assembly may includeone or more other accessories, such as one or more electrical orelectronic devices or accessories, such as antennas, including globalpositioning system (GPS) or cellular phone antennas, such as disclosedin U.S. Pat. No. 5,971,552, a communication module, such as disclosed inU.S. Pat. No. 5,798,688, a blind spot detection system, such asdisclosed in U.S. Pat. Nos. 5,929,786 and/or 5,786,772, transmittersand/or receivers, such as a garage door opener device for actuating agarage door opening mechanism for opening a garage door or the like,such as disclosed in U.S. Pat. Nos. 6,396,408; 6,362,771; and 5,798,688,a digital network, such as described in U.S. Pat. No. 5,798,575, ahigh/low headlamp controller, such as disclosed in U.S. Pat. Nos.5,796,094 and/or 5,715,093, a memory mirror system, such as disclosed inU.S. Pat. No. 5,796,176, a hands-free phone attachment, a video devicefor internal cabin surveillance and/or video telephone function, such asdisclosed in U.S. Pat. Nos. 5,760,962 and/or 5,877,897, a remote keylessentry receiver, lights, such as map reading lights or one or more otherlights or illumination sources, such as disclosed in U.S. Pat. Nos.5,938,321; 5,813,745; 5,820,245; 5,673,994; 5,649,756; 5,178,448;5,671,996; 4,646,210; 4,733,336; 4,807,096; 6,042,253; and/or 5,669,698,and/or U.S. patent application Ser. No. 10/054,633, filed Jan. 22, 2002,now U.S. Pat. No. 7,195,381; and/or Ser. No. 09/793,002, filed Feb. 26,2001, now U.S. Pat. No. 6,690,268, microphones, such as disclosed inU.S. Pat. Nos. 6,243,003; 6,278,377; and/or 6,420,975, speakers, acompass, such as disclosed in U.S. Pat. Nos. 5,924,212; 4,862,594;4,937,945; 5,131,154; 5,255,442; and/or 5,632,092, a tire pressuremonitoring system (TPMS), such as the types disclosed in U.S. Pat. Nos.6,294,989; 6,445,287; and/or 6,472,979, and in U.S. patent applicationSer. No. 10/232,122, filed Aug. 30, 2002, now U.S. Pat. No. 6,975,215;and Ser. No. 10/279,059, filed Oct. 23, 2002, now U.S. Pat. No.6,774,774, a seat occupancy detector, a trip computer, an ONSTAR® systemand/or the like (with all of the above-referenced patents and patentapplications being commonly assigned to Donnelly Corporation, and withthe disclosures of the referenced patents and patent applications beinghereby incorporated herein by reference in their entireties). Theaccessory or accessories may be positioned at or within the accessorymodule housing and/or the mirror casing and may be included on orintegrated in a printed circuit board positioned within the respectivehousing or casing, without affecting the scope of the present invention.

The accessories or components of the accessory module may be connectedto the vehicle electronic or communication systems and may be connectedvia various protocols or nodes, such as Bluetooth, SCP, UBP, J1850, CANJ2284, Fire Wire 1394, MOST, LIN and/or the like, depending on theparticular application of the accessory module of the present invention.The accessory module may be electronically integrated with the vehicleelectrical and/or control systems. For example, the accessory module mayconnect to a sunroof control, a rain sensor control, a mass motionsensor, a roof lighting control, a microphone/cell phone control, aclimate control, an electrochromic mirror reflective element or cellcontrol and/or the like. The accessory module may provide an output tothe vehicle system or systems over a communication bus, such as a highbeam activation level (which may be dependent on the module interfacetype, such as duty cycle, active/inactive, percent illumination, etc.),an intelligent headlamp control enabled/fault indicator status, a rainsensor status, a compass status, an ambient light level status (whichmay be an interior or exterior lighting status), an exterior conditionstatus, an autolamp status, a sunload status and/or the like. Theaccessory module may also receive various inputs over the communicationbus or communication line, such as an intelligent headlamp controlenabled/disabled status, a transmission status (such as park, reverse,neutral, drive, low or other gear settings), a headlamp status, avehicle speed, a steering wheel angle, a turn signal status, and/or thelike. The accessory module may be in electrical communication with theinterior rearview mirror assembly, such as for controlling anelectrochromic cell of the mirror and/or a microphone of the mirrorand/or the like, and may be in communication with a telematics system ofthe vehicle, such as to provide a signal from a microphone or speaker atthe accessory module and/or the interior rearview mirror assembly. Theaccessory module may include a vehicle connector for connecting to awire or cable of the vehicle, which may provide power and electricalcommunication to the accessory module, such as via a communication busor the like. Optionally, the accessory module may include a rechargeablebattery pack, such as described above, and may thus comprise a standalone accessory module and thus may not require electrical connection tothe vehicle wiring and/or controls.

Accessory module 10 may also include user interface controls, such asbuttons, switches or the like, displays, indicators, microphones,speakers or the like. Some of these may be provided at or along adisplay or interface area above the mirror, such as shown at display orinterface area 46 in FIGS. 12A-D and 13. Optionally, accessory module 10may include an extension (such as shown in FIGS. 59-65) which extendsover or under the mirror 14 to provide easier or enhanced access andviewing of various user interface controls or displays or the like,without affecting the scope of the present invention. It is furtherenvisioned that display or interface portion or area 46 may comprise anupwardly extending display or user interface portion and may beextendable and retractable relative to the mounting button area of theaccessory module, such that the extension may be moved upward to provideclearance over the mirror (as shown in FIGS. 12A, 12B and 13) or suchthat the extension may be moved upward toward the headliner of thevehicle, depending on the application of the accessory module of thepresent invention.

Referring now to FIG. 14, an accessory module 110 in accordance with thepresent invention is loaded toward and against the interior surface 12 aof the windshield 12 via pivotal movement of the accessory module 110about a pivot axis or joint 111 at the headliner 113 of the vehicle. Theaccessory module 110 includes a mirror mount 120 which extends from alower portion of the module for mounting a mirror assembly 114 thereto.Accessory module 110 may include any and/or all of the accessories orcomponents discussed above with respect to accessory module 10 and mayprovide for electrical connection to the electrical components oraccessories via electrical connection when the module is pivotablymounted at the headliner and/or when the module is pivoted toward andagainst the windshield to load the module against the windshield, suchas via electrical contacts or plugs or the like, as discussed above. Theaccessory module 110 may be loaded toward and against the windshield viaa ratcheting of the module as it is pivoted toward engagement with thewindshield or via other means for loading and retaining the module atthe windshield.

Optionally, as shown in FIGS. 15 and 16, an accessory module 210 may bepivotally mounted at the headliner 213 of the vehicle, such as at apivot axis or joint 211, and may include an expandable area 228 a of thehousing 228 to provide a continuous module housing 228 whileaccommodating flexing of the module housing as the module is pivotedtoward or away from the windshield. As shown in FIGS. 15 and 16, some ofthe interface controls, displays, lights, indicators and/or the like maybe positioned at a control console at and along the headliner of thevehicle, without affecting the scope of the present invention.

Optionally, the accessory module of the present invention may be anextension of a header portion of the vehicle and/or a header console ofthe vehicle, such as to provide a viewing area or display visiblethrough the windshield from outside the vehicle, such as described incommonly assigned, U.S. patent application Ser. No. 09/710,016, filedNov. 10, 2000, now U.S. Pat. No. 6,445,287, which is hereby incorporatedherein by reference. The module or lobe extending down from the headerportion or console may be spring mounted or otherwise loaded or biasedtoward the windshield and may include a cushioning or sealing member tocushion the module against the windshield.

Optionally, the header portion or console may be installed at the roofor header of the vehicle (such as before the windshield is installed tothe vehicle) and may include a lobe or module which may be movableforwardly with respect to the vehicle to move and load the moduleagainst the interior surface of the windshield after the windshield isinstalled in the vehicle. The module may be spring loaded to move andload the module toward and against the windshield, or may be ratchetedforward or otherwise moved toward the windshield to move and load themodule toward and against the windshield of the vehicle. The module maythen be retractable or movable away from the windshield to facilitateaccess, service, maintenance or replacement of the accessory module.

Referring now to FIG. 17, an accessory module 310 in accordance with thepresent invention may comprise a housing 328 which extends at leastpartially across the headliner 313 of the vehicle and provides a mount320 for mounting a mirror assembly 314 thereto. In the illustratedembodiment, the accessory module 310 extends entirely across theheadliner between the A-pillars of the vehicle to provide a continuousmodule along and above the upper edge of the windshield. The accessorymodule 310 may include one or more sun visors 315, which may fold downor be pulled down and unrolled from within the accessory module 310 toprovide shielding of the sun from the driver's or passenger's eyes. Theaccessory module 310 may include any and/or all of the accessories orcomponents discussed above with respect to accessory module 10 and mayprovide for electrical connection to the electrical components oraccessories via electrical connection when the module is mounted alongthe headliner (such as via screws, snaps, or other fasteners) andagainst the windshield (whereby the module is preferably loaded againstthe windshield), such as via electrical contacts or plugs or the like,similar to those discussed above.

Referring now to FIG. 18, an accessory module 410 may be biased orspring loaded against the interior surface 12 a of the windshield via abiasing member or spring 429 along the mounting arm 422. Spring 429 ispositioned between a raised portion or stop 422 a along mounting arm 422of mirror 414 and a cover 428 of accessory module 410. The accessorymodule 410 may include accessories, displays, user interface controlsand/or the like, as discussed above with respect to accessory module 10.

As shown in FIG. 19, an accessory module in accordance with the presentinvention may include a plate or platform 50, which may further includea main board or power bus 52 mounted or affixed thereto. The platform 50may then include one or more electronic sub-boards 54, which may beattached to the platform 50 as desired, depending on the particularapplication of the accessory module and on the desired features oraccessories of the module.

It is further envisioned that an accessory module 510 (FIG. 20) mayinclude a removable, plug-in module 552, which may be installed in orremoved from the module depending on the application of the module andthe desired functions and features of the module. The accessory module510 may include a removable panel 528 a at housing 528 to facilitateaccess to the plug-in module 552. Alternately, a plug-in module or card562 may be retained in connection with an electrical connector via aretention clip 564, as shown in FIG. 21. As also shown in FIG. 21, themirror mount 520 may connect to an exterior surface of housing 528 ofaccessory module 510.

Optionally, an accessory module 610 (FIG. 22) of the present inventionmay include a center module 610 a mounted to or at the windshield in amanner according to the present invention. The center module 610 a mayprovide a connector 668 along one or both sides of the center module forconnection of one or more side pod modules 610 b, 610 c. The centermodule 610 a and/or the side pod modules 610 b, 610 c may includevarious accessories, displays, controls, indicators and/or the like,such as discussed above with respect to accessory module 10. Theelectrical connections to the side pod modules 610 b, 610 c may be madeas the side modules are snapped or otherwise attached or mounted tocenter module 610 a, such as via electrical connectors 668, 669.

As shown in FIGS. 23A and 23B, an accessory module 710 may mount to thewindshield 12 and include an opening or passageway 734 a for fitting theaccessory module around a mounting button 718, mount 720 and mountingarm 722 of a mirror 714. The accessory module 710 may include astructural mounting portion or member 726 and a cover 728, which definea cavity 730 for housing various accessories or the like. Theaccessories may include any accessories, controls, indicators, displaysand/or the like as discussed above.

Referring now to FIGS. 24A, 24B and 25A-C, an accessory module 810 ismountable to a mounting button (not shown) at a windshield of a vehicleand provides a second mounting button 816 a for mounting a mirror mount820 and mirror 814 to accessory module 810. The second mounting button816 a is positioned within a pocket or recessed area, where the pocketallows sufficient clearance for the mirror mount 820 to fit in and slideonto the button 816 a. The accessory module may extend upward and overthe mirror 814, as can be seen in FIGS. 25B and 25C, to provide accessto one or more user interface controls or buttons 811 at an upper end ofthe accessory module 810.

In the illustrated embodiment of FIGS. 24A, 24B and 25A-C, the accessorymodule may provide buttons 811, such as for actuating a garage dooropener device or system of the vehicle or accessory module for actuatinga garage door opener mechanism for opening a garage door or the like,such as the types described in U.S. Pat. Nos. 6,396,408; 6,362,771;5,798,688 and 5,479,155, which are hereby incorporated herein byreference, such as the type available from Johnson Controls, Inc. ofPlymouth, Mich., under the name HOMELINK®. The accessory module 810includes a mounting portion 810 a and an upper extension 810 b whichextends over the mirror 814. The angle of the upper portion 810 brelative to the lower portion 810 a is selected according to the angleof the windshield of the targeted vehicle, such that the buttons aredirected generally parallel to the floor of the vehicle when theaccessory module is mounted to the windshield. Desirably, the upperportion may be pivotable so that the upper portion may be canted towardthe driver and secured in such position, or the upper portion maydesirably be rigidly canted toward the driver (such as approximately10-35 degrees, and preferably 15-25 degrees), to provide enhancedvisibility and access to the buttons by the driver of the vehicle.

Optionally, the upper portion 810 b of the accessory module may includean information display, such as a compass display (not shown).Desirably, all of the compass circuitry, including the vacuumfluorescent display and the compass sensors, may be created on onecircuit board, thus allowing economy of parts fabrication. Also, becausethe accessory module, when mounted to the windshield, is rigid and doesnot move, the orientation of the compass sensing element, such as amagnetoresistive sensor, such as described in U.S. Pat. No. 5,802,727,and U.S. patent application Ser. No. 09/540,702, filed Mar. 31, 2000,now U.S. Pat. No. 6,513,252, which are hereby incorporated herein byreference, remains substantially fixed relative to the vehicle. Thecompass and/or compass display may be of the types disclosed in U.S.provisional application Ser. No. 60/420,010, filed Oct. 21, 2002, whichis hereby incorporated herein by reference.

Optionally, the accessory module of the present invention may be mountedon the button at the windshield during a first operation at the vehicleassembly plant. For example, the module mounting member may be adaptedto be attached to the button (preferably in a detachable way), and mayinclude a mechanical fastener, such as a screw or other fastener, or asnap type connection or the like to secure the mounting member thebutton. Because the second button on the accessory module is a replicateof the button on the windshield, the mirror may mount on the secondbutton during a second operation. Optionally, the accessory module maybe provided to a vehicle assembly plant with the mirror assemblypreattached to the module. The entire assembly may thus be adapted to bereadily mounted to the attachment member or button at the windshield ina single operation at the vehicle assembly plant. The accessory moduleof the present invention preferably provides visual and mechanicalguides or cues to facilitate the mounting operation as the accessorymodule is mounted to the windshield.

Referring now to FIGS. 26A-26D, an accessory module 910 is mountable atand/or loadable against an interior surface of a vehicle windshield,such as in a similar manner as discussed above with accessory module 10.Accessory module 910 is substantially similar to accessory module 10discussed above, such that a detailed discussion of the features andcharacteristics of the accessory module will not be repeated herein. Asshown in FIGS. 26C and 26D, the rearview mirror assembly 914, which ismounted to the mounting portion 920 at accessory module 910, may includea microphone 915. Microphone 915 may be mounted at an upper portion ofthe mirror assembly 914 and beneath an upper, curved portion 910 b ofthe body 910 a of accessory module 910. The microphone 915 may be of thetype disclosed in commonly assigned, U.S. Pat. Nos. 6,243,003 and6,278,377, and/or U.S. patent application Ser. No. 09/466,010, filedDec. 17, 1999, now U.S. Pat. No. 6,420,975, and/or U.S. provisionalapplications, Ser. No. 60/415,233, filed Oct. 1, 2002, Ser. No.60/429,360, filed Nov. 26, 2002, which are all hereby incorporatedherein by reference.

Referring now to FIGS. 27-32, a stand-alone accessory module 1010 ismounted to an interior surface 12 a of a windshield 12 of a vehicle andincludes an extender 1016, which is mounted to and extends from amounting attachment 1018 (such as a conventional mirror mounting button)at the windshield 12. A mounting portion of the extender 1016 may beslid or otherwise moved into engagement with the button 1018, asdiscussed above with respect to accessory module 10. Thus, accessorymodule 10 may detachably attach (and preferably breakaway if impacted,such as in an accident) to button 1018 (such as using a fastenerlessattachment element, such as a top clip attachment, such as described inU.S. Pat. No. 5,576,687, which is hereby incorporated herein byreference) or may be secured thereto using a screw or similar fastener.

Extender 1016 may comprise a die-cast metallic member or a plasticmolded member or the like, without affecting the scope of the presentinvention. As shown in FIG. 28, extender 1016 may include a channel orpassageway 1017, such as a cylindrical passageway and/or threadedpassageway, extending lengthwise through the extender, such that athreaded fastener or screw 1015 may be threaded through the extender toan opening or indentation in the button to retain or secure the extenderto the button. The screw may be countersunk into the extender to providea generally flat surface at the opposite end from the button end.Further, the channel may include a larger diameter passageway 1017 a(large enough for the head of the fastener to be driven into tocountersink the head of the fastener within the extender), which mayextend substantially into the extender 1016 to allow the fastener 1015to be partially threaded onto a threaded portion 1017 b of thepassageway, yet still be substantially within the countersunk portion.Because the fastener 1015 is initially positioned at least partiallywithin the extender, a drive tool may be easily aligned with and engagedwith the head of the fastener for driving the fastener into its securingposition. The accessory module, including the extender and screw, maythus be provided to the vehicle assembly plant, whereby the screw orfastener may be easily driven into and/or against the mounting button1018 by an operator at the vehicle assembly plant. The operator may thenslide or otherwise position the extender onto the button and drive thescrew or fastener into place to secure the extender to the button andwindshield.

Extender 1016 includes a second mounting attachment or button at itsouter end for receiving a mirror mount 1020 thereon (FIG. 27). Thebutton-on-button attachment may be similar to the attachments disclosedin U.S. Pat. No. 4,930,742, which is hereby incorporated herein byreference. In addition to providing structural support for the housingof the accessory module and for the accessories included therein ormounted or attached thereto, the extender provides a rigid extension ofa mounting button from the interior surface of the windshield formounting (and supporting) an interior rearview mirror assembly 1014 tothe windshield 12. The interior rearview mirror assembly may comprise aprismatic mirror assembly or an electrochromic mirror assembly or thelike, without affecting the scope of the present invention, and with theinterior rearview mirror assembly preferably forming a detachable and/orbreakaway attachment to the outer end of extender 1016 of accessorymodule 1010.

Similar to extender 16, discussed above, extender 1016 provides astructural, load bearing connection between the attachment member 1018and the mount 1020 of a support arm 1022 of the interior rearview mirrorassembly 1014 (or the mount of the mirror, such as shown in FIG. 1) thatis attachable to accessory module 1010. As such, extender 1016 ispreferably fabricated of a rigid, load bearing material, such as ametallic material or metal, such as a die cast metallic material, suchas die cast zinc or die cast aluminum or the like. Extender 1016 maycomprise a solid member, or may include channels or passagewaystherealong, which may include a wireway passage, such as for wirings topass therethrough or a channel-way to accommodate a screw type fastener,such as described above. The length of extender 1016 is sufficient forthe housing or body 1011 of accessory module 1010 to slide over/secureto, but not so long as to create an excessive moment arm or to undulymove the reflective element of the interior rearview mirror assemblythat attaches to the accessory module toward and close to the driver ofthe vehicle. Extender 1016 also provides structural support for the bodyof the accessory module and for any accessories contained therein orattached thereto.

As discussed above with respect to accessory module 10, extender 1016 isformed and adapted to mount to a particular mounting attachment member1018 at the windshield at one end of extender 1016. For O.E.M. automakerinstallations, the opposite end of the extender is typically formed as areplication of the attachment member or button at the windshield of thatparticular vehicle (however, as previously indicated, the opposite endof the extender may be different from the button that the extender ismounted to so as to allow aftermarket installation of an accessorymodule that has a mirror mounting end for a mirror that anticipates adifferent button). Similar to extender 16, extender 1016 may have someor all of the plastics of the accessory module molded to the extender,such as by integral molding. Optionally, the extender may be die cast,such as a die cast metal (preferably die cast zinc or die cast aluminum)or otherwise formed, such as by molding of an engineering plastic, suchas a filled nylon engineering plastic or the like, and may be formed asa structural skeleton member. Extender 1016 may be a solid constructionor a hollow construction, such as a solid or hollow slug, and ispreferably of limited length or extension so as to both facilitate easeof attachment to the mirror button by a vehicle assembly line operator(and where a screw or other fastener is used, the driving of the screwby the operator) and to minimize the further extension of the mirrorreflector of the mirror assembly toward the driver when the mirrorassembly is mounted to the extender. Preferably, the extension is nomore than approximately two inches long, more preferably, no more thanapproximately 1.25 inches long, and most preferably, no more thanapproximately 0.75 inches long, to provide a sufficient space betweenthe mirror mount 1020 and the mounting button 1018 for housing or body1011. A cover, such as a plastic or polymeric cover, may then be snappedor otherwise affixed or attached to the skeleton extender, withoutaffecting the scope of the present invention.

Housing or body 1011 of accessory module 1010 includes a base portion orfixed portion 1011 a and an upper portion or movable portion or headportion 1011 b extending from the base portion, as shown in FIG. 27.Base portion 1011 a may be integrally molded with or onto extender 1016or may snap or otherwise be secured to extender 1016, such as in themanners described above. For example, body 1011 can be formed in aseparate molding operation and can snap onto extender 1016 as desired,without affecting the scope of the present invention. Body 1011 includesa mounting portion 1011 c for mounting head portion 1011 b to baseportion 1011 a, and preferably for movably or pivotably mounting headportion 1011 b to base portion 1011 a. Although shown as having the headportion 1011 b positioned above the base portion 1011 a, it isenvisioned that a head portion (or tail portion) may also or otherwisebe mounted at a lower end of the base portion and positioned below thebase portion and interior rearview mirror assembly, without affectingthe scope of the present invention.

The mounting portion 1011 c of housing 1011 preferably allows fordifferent types of head portions to be mounted to a standard or commonbase portion. The different heads may be tooled up or manufactured withdifferent accessories associated therewith. For example, if a vehicle ismade with a display as an option, a head portion with the display optionmay be mounted to the base portion of the accessory module, whereas if avehicle is made with a garage door opener option, a head portion withsuch a garage door opener option may be mounted to the base portion.Clearly, other accessories or options may be incorporated into accessorymodule 1010, without affecting the scope of the present invention. Thebase portion thus may be a common part, while the head portion may beselected to match a desired function or option of the vehicle and may bemounted to the base portion. In such applications, all of theelectronics, such as electronic circuitry for a compass system anddisplay, a temperature display, a garage door opener device or systemand associated buttons, a user input device or buttons, such as for atelematics system or the like, a microphone and/or any other desiredsystem or systems or accessory or accessories may be positioned at orwithin the head portion, such that the accessory module may comprise thesame base portion irrespective of the selected option or options orfunction or functions of the head portion.

The different modules with different features may mount to the mountingportion 1011 c and optionally may be movably or adjustably mountedthereto. For example, the mounting portion 1011 c may include pivot orswivel elements, such as a ring or partial ring of detents or indents ora ball joint or other type of swivel joint connection, which allows headportion 1011 b to pivot or swivel relative to base portion 1011 a, suchas side to side and about a generally vertical pivot axis when theaccessory module is mounted to the vehicle, so as to direct the headportion 1011 b toward the driver, and/or up and down and about agenerally horizontal pivot axis when the accessory module is mounted tothe vehicle, so as to adjust a level at which the head portion ispositioned. This allows for the different modules to be mounted to thegenerally fixed base portion and adjusted to an appropriate orientationfor optimal viewing by the driver of the vehicle, even though the modulemay be installed in different vehicles, such as different vehicles withdifferent angled windshields or different driver's head positionrelative to the windshield. However, in certain installations, themodule mounting portion may have a preset angle, such that the headportion may snap onto the base portion and be generally fixed (such asat a preset angle) relative to the base portion, without affecting thescope of the present invention.

The detent ring allows for the head (or tail) portion to pivot or swiveland to click or snap or lock into place at one or more particular angles(such as at approximately six degrees downward and approximately twelvedegrees toward the driver). The detent ring may include several detents,such that the head portion may be adjusted to one of several positionsor orientations relative to the base portion. The head portion may beadjusted to an appropriate position when installed and then generallyfixed or locked relative to the base portion, or may be adjustablymounted such that the head portion may be later adjusted by the driverof the vehicle if desired. The swivel or pivot mounting elements may bemolded into the housing portions of the accessory module, or may beattached thereto, without affecting the scope of the present invention.

Optionally, the mounting portion 1011 c may provide a swivel joint whichmay include a generally spherical ball shaped member which includes aplurality of dimples or indentations on its surface (such as similar tothe surface of a golf ball), such that a corresponding portion of themounting portion may at least partially receive the ball shaped memberand engage an appropriate one or ones of the dimples or indentations tosubstantially secure or fix the head portion in a desired orientationrelative to the base portion of the accessory module. The head portionmay be adjustable via pivotal movement of the head portion relative to ahorizontal direction or the x and y axes of the vehicle and/or relativeto a vertical direction, such as left and right and/or up and down, tohorizontally and/or vertically adjust the orientation of the headportion at various angles relative to the base portion.

As shown in FIGS. 31 and 32, the head portion 1011 b of accessory module1010 may be angled or canted to a desired orientation with respect tothe windshield and with respect to a location corresponding to a typicallocation of the head of the driver of the vehicle. Preferably, the headportion of the accessory module is pivotable to be canted or positionedat an angle A with respect to the longitudinal axis 1009 (FIG. 31) ofthe vehicle which is approximately 8-18 degrees toward the driver of thevehicle, more preferably, approximately 10-15 degrees, and mostpreferably, approximately 11-13 degrees. Also, the head portion 1011 bmay be angled downwardly toward the driver's head at an angle B withrespect to a generally horizontal plane 1007 (FIG. 32). Preferably, thehead portion may be angled downwardly toward the driver's head locationat an angle greater than approximately 1 degree and less thanapproximately 15 degrees, and more preferably, greater thanapproximately 5 degrees and less than approximately 10 degrees downward.

Accessory module 1010 may include various accessories within baseportion 1011 a and/or head portion 1011 b. For example, in theillustrated embodiment, base portion 1011 a of accessory module 1010includes a forward facing video image sensor or system 1062. The imagesensor or system 1062 may include an intelligent rain sensor (such asthe type disclosed in commonly assigned U.S. Pat. Nos. 6,320,176;6,353,392; 6,313,454; 6,341,523; and 6,250,148; and/or in U.S. patentapplication Ser. No. 10/023,162, filed Dec. 17, 2001, now U.S. Pat. No.6,516,664; and Ser. No. 10/348,514, filed Jan. 21, 2003, now U.S. Pat.No. 6,968,736, which are all hereby incorporated herein by reference),an image or vision system or sensor (including an imaging sensor, suchas a video camera, such as a CMOS imaging array sensor, a CCD sensor orthe like, such as the types disclosed in commonly assigned, U.S. Pat.Nos. 5,550,677; 6,097,023 and 5,796,094, which are hereby incorporatedherein by reference), an intelligent headlamp controller (such as thetype disclosed in U.S. Pat. No. 5,796,094 and/or in U.S. provisionalapplications, Ser. No. 60/420,560, filed Oct. 23, 2002; Ser. No.60/398,346, filed Jul. 24, 2002; Ser. No. 60/381,314, filed May 17,2002; Ser. No. 60/374,724, filed Apr. 23, 2002; Ser. No. 60/364,008,filed Mar. 14, 2002; and Ser. No. 60/350,965, filed Jan. 31, 2002, whichare all hereby incorporated herein by reference), an intelligent lanedeparture warning system, such as the types described in U.S.provisional applications, Ser. No. 60/433,700, filed Dec. 16, 2002, andSer. No. 60/377,524, filed May 3, 2002, which are hereby incorporatedherein by reference, and/or the like. The image sensor may beimplemented with any type of vehicle vision system or the like, such asa vision or imaging system utilizing principles disclosed in U.S. Pat.Nos. 6,396,397 and 6,201,642, and/or U.S. patent application Ser. No.10/010,862, filed Dec. 6, 2001, now U.S. Pat. No. 6,757,109; and Ser.No. 09/199,907, filed Nov. 25, 1998, now U.S. Pat. No. 6,717,610, whichare hereby incorporated herein by reference. As discussed above, theaccessory module of the present invention may provide for positiveperpendicular coupling of the base portion of the accessory module tothe windshield to optically couple such sensors toward and against thewindshield if desired.

Base portion 1011 a of the illustrated embodiment of FIG. 27 further mayinclude a short-range radio frequency (RF) transceiver 1064 forcommunication with other vehicle electronic or communication systems andmay communicate to such systems via various protocols or nodes, such asBluetooth, SCP, UBP, J1850, CAN J2284, Fire Wire 1394, MOST, LIN and/orthe like, depending on the particular application of the accessorymodule of the present invention. The accessory module may beelectronically integrated with the vehicle electrical and/or controlsystems. For example, the accessory module may connect to a sunroofcontrol, rain sensor control, mass motion sensor, roof lighting control,microphone/cell phone control, climate control, or the like, withoutaffecting the scope of the present invention.

As shown in FIG. 27, head portion 1011 b may include a microphone ormicrophone array 1066 for receiving audio or voice signals from withinthe cabin of the vehicle. The microphone or microphone array may be partof a communication system, such as disclosed in U.S. Pat. Nos. 6,243,003and 6,278,377, and in U.S. patent application Ser. No. 09/466,010, filedDec. 17, 1999, now U.S. Pat. No. 6,420,975, which are herebyincorporated herein by reference. Preferably, as shown in FIG. 27,microphone 1066 is mounted or positioned at an underside of head portion1011 b, which shelters the microphone from direct moisture intrusion,such that the microphone or microphone array is sheltered from directexposure to debris or rain or the like, such as when the accessorymodule is mounted in a convertible.

Head portion 1011 b preferably includes a single circuit element 1052(FIGS. 27 and 30), such as a printed circuit board (PCB) mounted atleast partially within head portion 1011 b. As shown in FIG. 30, printedcircuit board 1052 may include a display element 1054 along or partiallyalong an edge of the board and may include one or more user-actuatablecontrols or buttons 1056 near or adjacent to the display element 1054.The display element may be any type of display, such as a vacuumfluorescent (VF) display, a light emitting diode (LED) display, anelectroluminescent (EL) display, a liquid crystal (LCD) display, a videoscreen display or the like, and may be for displaying variousinformation (as discrete characters, icons or the like, or in amulti-pixel manner) to the driver of the vehicle, such as compassheading information, passenger side inflatable restraint (PSIR)information, tire pressure status, and/or the like. The buttons may befor actuating or controlling various accessories or controls orcomponents associated with the vehicle, such as for a compasscalibration setting or zone setting, a telematics actuation, a garagedoor opener device, an electronic toll control (such as disclosed inU.S. patent application Ser. No. 09/793,002, filed Feb. 26, 2001, nowU.S. Pat. No. 6,690,268, which is hereby incorporated herein byreference), and/or the like, or may be for switching the display betweenvarious functions or modes, without affecting the scope of the presentinvention. The head portion 1011 b may include appropriate openingsalong its face 1011 d, such that the display element 1054 is visiblethrough one opening, while the buttons or controls may partiallyprotrude through other corresponding openings when an appropriatecircuit board is installed within the head portion. This allows for themanufacturer of the printed circuit board to easily place the board inthe head portion of the accessory module of the present invention.

As shown in FIG. 30, the printed circuit board 1052 may include otherelectronic components 1058, such as integrated circuits, resistors,capacitors, diodes and/or the like. The printed circuit board or elementmay also include one or more accessories, such as a compass sensor 1060for a compass system of the vehicle, such as a compass system of thetype disclosed in commonly assigned U.S. Pat. No. 5,255,442, and U.S.patent application Ser. No. 09/540,702, filed Mar. 31, 2000, now U.S.Pat. No. 6,513,252, which are hereby incorporated herein by reference.The compass sensor may be a magneto-resistive sensor, amagneto-capacitive sensor, a magneto-inductive sensor, or a flux-gatesensor or the like, without affecting the scope of the presentinvention. In this regard, it is preferable that the head portion is notuser movable or adjustable by the driver or occupant of the vehicle wheninstalled in the vehicle, so that the alignment of the compass sensor ispredictable relative to the x and y axes of the vehicle and generallyinvariant over the driving use of the vehicle. The head portion may beset relative to the base portion at a generally fixed or preset angle,but preferably is a fixed mount that may not be adjustable by a user,such as a driver or occupant of the vehicle, in such an application. Thehead portion thus may be generally fixedly positioned at the or relativeto the base portion when the accessory module is mounted at the vehicle,and thus may be non-adjustable by a driver or occupant of the vehicleduring normal use of the vehicle and/or the accessory module.

Preferably, the accessory module of the present invention may include anetwork bus, such as a CAN bus or a LIN bus, such as disclosed in U.S.Pat. No. 6,291,905, which is hereby incorporated herein by reference.The network bus may be operable to communicate with other systems of thevehicle, such as with accessories or elements of the interior rearviewmirror assembly.

Optionally, the interior rearview mirror assembly may include anelectrochromic rearview mirror, preferably utilizing a solid polymermatrix electrochromic medium, such as described in U.S. Pat. No.5,910,854, which is hereby incorporated herein by reference. The networkbus of the accessory module may then be in communication with thereversing system of the vehicle, such that the accessory module knowswhen the vehicle is shifted into reverse. The bus may then be operableto communicate this to the electrochromic rearview mirror assembly todisable the electrochromic dimming of the mirror when the vehicle is inreverse, as is desired and known in the art. The accessory module of thepresent invention thus may provide for hard wiring between the printedcircuit board within the accessory module and the rearview mirrorassembly, and may thus eliminate the need for hard wiring the mirror tothe reverse system of the vehicle. The mirror assembly may be hard wiredto the bus or node of the accessory module, which is only a minimaldistance, such as approximately three inches, and substantially lessdistance than wiring from the mirror to the reverse system. The presentinvention thus may provide for a node or bus in the head portion of theaccessory module and may allow the interior rearview mirror assembly tobe manufactured without a CAN bus or other type of network bus or node.

The interior rearview mirror assembly may include other accessories inaddition to the accessories contained in or mounted to the accessorymodule. For example, the interior rearview mirror assembly may includelights, and may be a modular rearview mirror assembly, such as describedin U.S. Pat. No. 6,124,886, which is hereby incorporated herein byreference, or may have various other accessories, such as disclosed inU.S. Pat. No. 6,222,460, which is hereby incorporated herein byreference.

The accessory module 1010 thus allows for a display and/or user actuatedcontrols to be adjusted or canted to a desirable orientation withrespect to the windshield and the driver of the vehicle. The interiorrearview mirror may be pivoted or adjusted independent of the accessorymodule and may be separately detachable from the accessory module. Theadjustable portion of the accessory module may be interchangeable withother portions, depending on the desired or selected options for theparticular vehicle in which the accessory module is being installed. Theselected adjustable head (or tail) portion may be mounted to a commonbase portion and adjusted to the desired orientation. The accessorymodule of the present invention thus allows for various accessories tobe mounted within an accessory module which is mountable to thewindshield of various vehicles. The adjustable nature of the head ortail portion relative to the generally fixed base portion allows thedisplay or control functions to be optimally oriented with respect tothe driver of the particular vehicle, and accounts for various angles ofwindshields and other design parameters of various vehicles, withoutrequiring specific mounting components. Optionally, the accessory modulemay include a rechargeable battery pack, such as described above withrespect to accessory module 10. The battery pack may be removable ordetachable from the accessory module and may plug into a power outlet ofthe vehicle for recharging, or the portion of the accessory module thathouses the battery pack, such as the head portion of the accessorymodule, may be detachable and may be plugged into a power outlet of thevehicle for recharging.

Referring now to FIGS. 33 and 34, an accessory module 1110 is mountableto a windshield mounted button 1118 at an interior surface 12 a of awindshield 12 of a vehicle. Similar to accessory module 10, discussedabove, accessory module 1110 includes a mounting extender 1116, whichmounts to button 1118 via a mounting portion 1116 a and includes asecond mounting button or mirror attachment member or the like 1116 bfor mounting an interior rearview mirror assembly 1114 to accessorymodule 1110. As shown in FIGS. 33 and 34, the mounting buttons 1118,1116 b may be staggered, such that the mirror mounting button 1116 b ispositioned above the windshield button 1118. This allows for easyattachment or securement of extender 1116 and accessory module 1110 towindshield button 1118, such as via a fastener 1115, while maintainingaccess to the fastener after the interior rearview mirror assembly 1114has been mounted to accessory module 1110. Fastener 1115 may then bedriven generally straight through the accessory module and extender andinto the windshield button 1118, without interference with the mirrormounting button 1116 b, to secure accessory module 1110 to windshieldbutton 1118.

As shown in FIG. 33, and as discussed above with respect to accessorymodule 1010, accessory module 1110 may include a lower body portion orstalk or stem portion 1111 a and an upper or head portion or accessoryhousing 1111 b mounted to an upper end of stalk portion 1111 a. Headportion 1111 b may be adjustably mounted to stalk portion 1111 a at ajoint 1111 c (such that a driver of the vehicle may pivot or swivel thehead portion to a desired angle toward the driver's head area) or may begenerally fixedly secured to stalk portion 1111 a, such as at a desiredor preset angle toward the driver area. For example, the desired anglemay be preset and selectable at the vehicle manufacturing plant. Thisallows the lower or stalk portion 1111 a to be a common part for variousapplications of the accessory module, whereby a desired head or capportion 1111 b may be mounted to the stalk portion in accordance withthe vehicle model or options selected for a particular vehicle.

Because it is desirable to provide generally flat circuitry for theelectrical components of the mirror and/or accessory module, headportion 1111 b may be adapted to receive a flat printed circuit board1152 therewithin. It is also preferable to have the circuitry on asingle or unitary circuit board, rather than two boards with wiresconnecting them. This avoids bending of the circuitry and may reduce orsubstantially avoid wires between the circuit board and the associatedcomponents. In the illustrated embodiment of FIG. 33, circuit board 1152is directly connected to a display 1154, user actuable buttons 1156, amicrophone 1166, and a forward facing camera or image sensor 1162, eachof which is positioned at or within or partially within head portion1111 b of accessory module 1110 in the immediate vicinity of the flatcircuit board 1152. However, a circuit board may be positioned in headportion 1111 a and connected to other accessories or additionalaccessories, such as discussed above and/or below, without affecting thescope of the present invention.

As shown in FIG. 34, a different or optional head portion 1111 b′ may beprovided on stalk portion 1111 a of accessory module 1110. Head portion1111 b′ is adapted to receive a second printed circuit board 1153therewithin, which is associated with other components or circuitry ofaccessory module 1110 and/or interior rearview mirror assembly 1114. Forexample, circuit board 1153 may be directly connected to other useractuable buttons 1157 or the like at or within head portion 1111 b′.Head portion 1111 b′ provides a double decker circuit board arrangementor double decker bus arrangement within the head portion. The differenthead portions 1111 b, 1111 b′ may be selected depending on theparticular application of the accessory module. For example, headportion 1111 b may be selected and mounted to lower portion 1111 a ifthe vehicle includes a compass option or the like, while head portion1111 b′ may be selected and mounted to lower portion 1111 a ifadditional or other options are associated with the vehicle at which theaccessory module is mounted.

Referring now to FIGS. 35-57, alternate embodiments are shown of a mountextender or extension in accordance with the present invention which isadapted for mounting to a ring shaped mounting button or a mountingbutton, which is otherwise opened in the center region of the button.The ring-shaped buttons are suitable for applications where a rainsensor or other accessory may be included as part of the mountingextension, such that the accessory may be coupled to or loaded againstthe windshield as the mounting extension is pressed or mounted onto thebutton, or where an accessory may be part of the button or may be aseparate component positioned within the button and against thewindshield. For example, a rain sensor may be positioned at the centerregion of a generally ring-shaped or U-shaped windshield mounted button,such as disclosed in U.S. Pat. Nos. 6,250,148 and 6,341,523 and in U.S.patent application Ser. No. 10/023,162, filed Dec. 17, 2001, now U.S.Pat. No. 6,516,664; and Ser. No. 10/348,514, filed Jan. 21, 2003, nowU.S. Pat. No. 6,968,736, which are all hereby incorporated herein byreference.

As shown in FIGS. 35A and 35B, a mounting button 1218 is generallyring-shaped or open, so as to allow an accessory, such as a rain sensoror the like (not shown), to be positioned at a central region of themounting button 1218, and generally loaded or positioned against thewindshield (not shown in FIGS. 35A and 35B). Mounting button 1218 isbonded or otherwise secured or affixed to the interior surface of thewindshield, and includes a plurality or ridges or notches or teeth 1218a at two or more of the side walls 1218 b of button 1218. In theillustrated embodiment, each of three side walls 1218 b of button 1218include teeth 1218 a.

A mounting extension 1216 (FIG. 36) may include a second mirror mountingbutton 1216 b at an outer end thereof. Similar to mounting extension 16,discussed above, the mirror mounting button 1216 b may be a conventionalshaped mounting button for mounting an interior rearview mirror assemblythereto. At least two of the side walls 1216 c of mounting extension1216 include a corresponding mounting tab or portion 1216 a extendinginwardly from a lower edge of the mounting extension.

The mounting extension 1216 may be secured to mounting button 1218 byaligning the mounting tabs 1216 a with the corresponding notches orteeth 1218 a of mounting button 1218 and pressing mounting extension1216 generally perpendicularly toward the windshield. The teeth 1218 amay include a tapered opening or passageway 1218 c (FIG. 35B) to easealignment of the tabs 1216 a with teeth 1218 a. The mounting tabs 1216 aengage the teeth 1218 a of button 1218 as mounting extension 1216 ispressed onto button 1218. The teeth 1218 a of button 1218 are tapered,as can be seen in phantom in FIG. 35B, to allow for a ratchetingattachment of the mounting extension 1216, such that the rain sensor orother accessory 1238 may be generally perpendicularly loaded or pressedagainst and retained against the windshield. Additionally, a spring orbiasing member 1238 a may be provided at a cross member or support 1216d extending across mounting extension 1216 between opposite side walls1216 c of mounting extension 1216. The biasing member 1238 a functionsto push or bias the rain sensor into engagement with the windshield asthe mounting extension is pressed into place on the button. Optionally,the accessory or rain sensor may be a component of the mountingextension 1216, such that the accessory is pressed into engagement withthe windshield as the mounting extension is mounted to the button 1218.An outer housing or casing (not shown) of an accessory module may bemounted or secured to the mounting extension, as discussed above.

As shown in FIGS. 37A and 37B, a generally U-shaped mounting button1218′ is securable to an interior surface 12 a of the windshield.Mounting button 1218′ includes a tapered or ramped portion 1218 a′,which includes a stop surface 1218 b′. Ramped portion 1218 a′ ispositioned along and recessed within each side of button 1218′. Anaccessory module 1210 may be mounted to button 1218′ by sliding theaccessory module up and onto the button (the accessory module mayinclude a mount extension of the types discussed herein which slidesonto the button), over the ramped portion 1218 a′ and past the stopsurface 1218 b′. The stop surface 1218 b′ substantially precludesmovement of the accessory module in the opposite direction, so as toretain the module on the button. Button 1218′ has clearance for a rainsensor (not shown) to be positioned within the U-shaped button and notinterfere with the sliding and mounting of the accessory module onto thebutton. The accessory module and/or mounting extension may be secured tobutton 1218′ via a spring type attachment or the like. For example, theaccessory module may include a spring (not shown) which flexes ordeflects as it slides over the ramp 1218 a′ and flexes back after thespring passes the ramped portion 1218 a′. The spring then engages theopposite facing stop surface 1218 b′ and thus provides resistance tomovement in the opposite direction, so as to retain the module on thebutton 1218′. However, other mounting means may be implemented, such asset screws or the like securing the module to the button from one orboth sides, without affecting the scope of the present invention.

Referring now to FIGS. 38A-D, an accessory module 1310 includes anaccessory 1338, such as a rain sensor or the like, and is mounted at aninterior surface 12 a of the windshield 12 of a vehicle. A generallyring-shaped mounting button 1318 is secured to the interior surface 12 aof the windshield 12 and includes at least one lip or hook portion 1318a (FIGS. 38A and 38C) at one end of button 1318 and at least one tab orhook portion 1318 b at the other end of button 1318. As can be seen inFIG. 38B, hook portion 1318 a may be positioned along spaced apartopenings or slots 1318 d along the end of button 1318, while hookportion 1318 b may be at a slot 1318 c extending along the end of button1318. The central region of button 1318 is generally open to receiveaccessory 1338 therein, such that accessory 1338 may be loaded againstthe windshield at the center region of button 1318.

Accessory module 1310 includes a mounting extension 1316 for mounting tobutton 1318. As best shown in FIG. 38B, mount extension 1316 includes aplurality of hooks or tabs 1316 a at one end for engaging the hookportion 1318 a of button 1318, and one or more springs or tabs 1316 c atthe other end for engaging hook portion 1318 b of button 1318, in orderto secure mount extension 1316 to button 1318. As shown in FIG. 38A, thesprings 1316 c may be spaced apart to provide clearance for a connector1338 a of accessory 1338 to pass therethrough to facilitate electricalconnection of the accessory to the vehicle wiring. Similar to mountextension 16, discussed above, mount extension 1316 includes a mirrormounting button 1316 b at an outer portion for mounting an interiorrearview mirror assembly thereto. As shown in FIG. 38D, mount extension1316 may include an accessory mounting or loading member 1316 d, such asa strip of two sided adhesive foam or the like, to secure the accessory1338 to mount extension 1316 and/or to load the accessory toward andagainst the windshield 12.

Mount extension 1316 is mounted to button 1318 via insertion of hooks1316 a into hook portion 1318 a and then pressing mount extension 1316toward button 1318 to engage springs 1316 c with hook portion 1318 b.The accessory 1338 may then be loaded and retained against thewindshield by mount extension 1316. Accessory module 1310 furtherincludes a cover or housing 1328 which is secured to mount extension1316, such as via fasteners 1329 (FIG. 38D) or the like.

With reference to FIGS. 39A-41, another embodiment of the presentinvention includes a mounting button 1318′, which may be generallyring-shaped and includes a raised tab or hook portion 1318 a′ along onewall and a pair of openings 1318 c′ defined within a pair of raisedloops or rings 1318 d′ at or toward an opposite end of button 1318′ fromraised tab 1318 a′ (FIGS. 39A and 39B). A corresponding mounting button1316′ may include side walls and a mirror mounting button 1316 b′ (FIGS.40A and 40B). A lip or extension or hook 1316 a′ may extend outwardlyfrom a lower portion of one end or wall of mount extension 1316′, whilea pair of tabs or hooks 1316 c′, such as a stamped member or spring, mayextend from each side of mount extension 1316′. Lip 1316 a′ may beinserted within raised tab 1318 a′ of button 1318 and then mountingextension 1316′ may be pushed generally toward the button 1318′ andwindshield 12 to secure the mounting extension 1316′ to the button1318′. As shown in FIG. 41, as mounting extension 1316′ is pressed ontobutton 1318′, hooks 1316 c′ may flex outwardly as they slide over theraised rings or portions 1318 d′ around the openings 1318 c′, and thenflex inward into engagement with the openings 1318 c′ in button 1318′ toretain mounting extension 1316′ to button 1318′. Although shown ashaving openings 1318 c′ and hooks 1316 c′ positioned along the side ofthe respective components, the openings and hooks may be positionedalong an upper side or edge of the button 1318′ and mount extension1316′, respectively, without affecting the scope of the presentinvention.

As shown in FIG. 40B, mounting extension 1316′ may include one or moreaccessories 1338′, such as a rain sensor or the like. The components ofaccessory 1338′ may be positioned or clipped or snapped into theappropriate spaces or openings or recesses 1316 d′ in mounting extension1316′. A housing or casing (not shown) of the accessory module may beprovided around and secured to the mounting extension 1316′, such asdiscussed above. Mount extension 1316′ may further provide one or morefastening locations (not shown), such as threaded openings or the like,for receiving a fastener to secure the cover or housing of the accessorymodule thereon, such as discussed above with respect to accessory module1310.

Referring now to FIGS. 42A-44, a ring-shaped mounting button 1418 (FIGS.42A and 42B) may be secured to a windshield and includes a plurality ofgenerally rigid raised tabs, hooks or extensions 1418 a spaced around aperimeter wall 1418 b of button 1418 (the hooks may be spaced orpositioned at two or more of the sides of button 1418). The tabs 1418 amay have a generally flat locking surface 1418 a′ for engaging andlocking at a retaining spring 1419, as discussed below. A mountingextension 1416 includes a mirror mounting button 1416 b and side walls1416 c (FIGS. 43A-C). Each of the side walls 1416 c may include aretaining spring 1419 connected thereto, such as at a pair of openingsor apertures 1416 c′ at opposite ends of each side wall 1416 c. Thesprings are positioned generally along a lip or tab or hook 1416 a ofthe respective side walls 1416 c. As shown in FIG. 43C, the retainingsprings 1419 may be curved or wave-shaped to allow for flexing of thespring at the desired regions as the spring engages the respective tab1418 a on the button 1418. As can be seen with reference to FIG. 44, asmounting extension 1416 is pressed onto and over tabs 1418 a of button1418, springs 1419 will flex as tabs 1418 a engage the springs and willfunction to engage the locking surface 1418 a′ of tabs 1418 a whenmounting extension 1416 is pressed over the button 1418 and toward thewindshield a sufficient amount. The tabs 1416 a and 1418 a and thespring 1419 function to limit or substantially preclude disconnection ofthe mounting extension 1416 from the button 1418 after the mountingextension 1416 has been mounted on button 1418 and loaded against thewindshield.

As shown in FIGS. 45A and 45B, a mounting button 1518 useful with anaccessory module of the present invention may be generally ring-shaped,as discussed above, and may provide multiple mounting portions or tabsor apertures 1518 a for mounting to a correspondingly formed mountingportion of a mounting extension (not shown). Mounting button 1518further includes a mirror mounting button 1517 extending from a portionthereof, such as extending upward from an upper wall 1518 b of mountingbutton 1518. Mounting button 1518 may then receive or mount a mountingextension and associated housing of an accessory module at mountingportions 1518 a, while receiving an interior rearview mirror assembly(not shown) at button 1517, such that the mirror assembly may bepositioned generally above the accessory module.

Referring now to FIGS. 46A-48, a mounting extension 1616 mounts to aring-shaped mounting button 1618 and is retained thereto via a retaininghook or retainer 1619 (FIG. 48). As shown in FIGS. 46A-C, mountingbutton 1618 includes side walls 1618 c, which include a plurality ofspaced apart, raised tabs or extensions 1618 a extending upwardly oroutwardly therefrom. Each of the tabs 1618 a includes a generally flatlocking surface 1618 a′. Likewise, mounting extension 1616 includesopposite side walls 1616 c with a plurality of spaced apart tabs orextensions 1616 a extending downwardly or outwardly therefrom (FIGS. 47Aand 47B). Each of the tabs 1616 a also includes a generally flat lockingsurface 1616 a′. Similar to mounting extension 16, mounting extension1616 also includes a mirror mounting button 1616 b for receiving aninterior rearview mirror assembly at an outer end of mounting extension1616 from the windshield of the vehicle.

Mounting tabs 1618 a and 1616 a are correspondingly spaced andalternating so as to align with the gaps between the other tabs 1616 aand 1618 a, respectively. As mounting extension 1616 is pressed towardmounting button 1618, the tabs align with the respective gaps and themounting extension is moved toward the windshield until the flat lockingsurfaces 1618 a′ and 1616 a′ generally oppose one another and define agap therebetween, as shown in FIG. 48. Retaining hook 1619, which may bea separate component or may be part of a housing or casing or cover ofthe accessory module associated with mounting extension 1616, may thenbe slid or snapped or otherwise positioned between the opposed surfaces1618 a′, 1616 a′ to secure the mounting extension 1616 to the mountingbutton 1618. For example, retaining hook 1619 may be a generallycontinuous edge or lip of a cover or housing of the accessory module,and may snap or slide between all of the hooks or tabs on both sides ofthe button and the mounting extension. The cover may be a separate partor may be attached to the mounting extension, without affecting thescope of the present invention. As the mounting extension is pressedinto place on the button, the retainer 1619 flexes outward as it engagesthe hooks of the button, and then snaps into place between the hooksonce it clears the hooks of the button. As shown in FIG. 47A, mountingextension 1616 may also include openings or holes 1616 e for receivingposts or the like from the cover or housing of the accessory module tosecure the cover to the mounting extension.

Referring now to FIGS. 49A-51, a mounting extension 1716 (FIGS. 50A and50B) mounts to a ring-shaped mounting button 1718 (FIGS. 49A and 49B)and is retained thereto via a retainer or plug 1719 (FIG. 51). As shownin FIGS. 49A and 49B, mounting button 1718 includes side walls 1718 c,which include a plurality of raised rings or loops 1718 b extendingupwardly or outwardly therefrom. Each of the tabs 1718 b defines anopening 1718 a therethrough. Likewise, mounting extension 1716 includesopposite side walls 1716 c with a plurality of openings 1716 atherethrough (FIG. 50B). Similar to mounting extension 16, mountingextension 1716 also includes a mirror mounting button 1716 b forreceiving an interior rearview mirror assembly at an outer end ofmounting extension 1716 from the windshield of the vehicle (FIGS. 50Aand 50B).

Mounting openings 1718 a and 1716 a are correspondingly spaced so as toalign with one another as mounting extension 1716 is positioned atmounting button 1718. When the openings are aligned with one another,retainer 1719 engages the openings to retain the mounting extension 1716to mounting button 1718. As shown in FIG. 51, retainer 1719 includes apair of opposite engaging portions or locking portions 1719 a and a pairof springs or biasing members 1719 b between the locking portions 1719a. Each of the locking portions 1719 a includes a pair of lockingextensions 1719 c for inserting through the openings 1718 a, 1716 a tosecure the mounting extension 1716 to the mounting button 1718. Retainer1719 may further include a center extension 1719 d which may be pushedinward to retract the locking extensions 1719 c, in order to allow thelocking extensions to be aligned with the openings 1718 a of button1718. The center extension 1719 d may be pressed inwardly partiallythrough a center hole or opening 1716 d in side walls 1716 c of mountingextension 1716, and then released when the openings 1716 a, 1718 a arealigned. Retainer 1719 may be slidably positioned within mountingextensions 1716 and biased in opposite outwardly directions, such thatas mounting extension 1716 is placed at mounting button 1718, thelocking extensions 1719 c will slide outwardly through opening 1718 awhen the openings 1716 a, 1718 a are aligned and the center extension1719 d is released.

Referring to FIGS. 52A, 52B and 53, another ring-shaped mounting button1818 may be secured to a windshield 12 for mounting a mounting extension1816 of an accessory module 1810 thereto. Mounting button 1818 includesa raised lip or hook or projection 1818 a extending from one wall 1818 cof button 1818. A second button or fastening member or portion 1817 maybe positioned on the windshield 12 and spaced from button 1818. Mountingextension 1816 includes a lip or extension 1816 a extending therefromfor engagement with and within the raised lip or hook 1818 a of mountingbutton 1818. The accessory module 1810 further includes a fastenerportion 1819 having an opening or passageway 1819 a therethrough, whichis spaced from mounting extension 1816 but is fixedly secured ormechanically fastened to mounting extension 1816. For example, fastenerportion 1819 may be part of a housing or casing (a portion of which isshown at 1828 in FIG. 53) of the accessory module 1810 which ismechanically fastened to the mounting extension, or may otherwise begenerally rigidly connected to mounting extension 1816. As can be seenwith reference to FIGS. 52B and 53, lip 1816 a of mounting extension1816 is inserted into the raised projection 1818 a of mounting button1818, such that fastener portion 1819 is generally aligned with secondbutton 1817 at the windshield. A fastener (not shown) may then be driventhrough passageway 1819 a and into second button 1817, which may have athreaded opening 1817 a or the like.

Similarly, as shown in FIGS. 54A, 54B and 55, a second button orfastening portion 1817′ may include a hook or lip 1817 a′ extending fromthe windshield 12. A fastener portion 1819′ of an accessory module 1810′may then include a correspondingly formed lip or snap 1819 a′ whichengages lip 1817 a′ as the accessory module and/or the mountingextension is pressed toward the windshield. As discussed above, fastenerportion 1819′ may be connected to or mechanically fastened to mountextension 1816, such as via a housing or casing 1828′ of accessorymodule 1810′. The corresponding lip portions function to retain themounting extension and the accessory module to the mounting button atthe windshield.

Also, as shown in FIGS. 56A and 56B, mounting button 1818 may be mountedto the windshield 12 near a headliner 13 of a vehicle. As shown in FIG.57, the vehicle may include a tab or mounting portion 1817″, such as atab protruding from the sheet metal 15 of the vehicle. An accessorymodule 1810″ includes the mounting extension (not shown in FIGS. 56A,56B and 57) and further includes a snap or tab 1819″ extending therefromfor engagement with the tab 1817″. As discussed above, the snap 1819″ ismechanically fastened to the mounting extension. As the lip 1816 a ofmount extension 1816 is inserted into lip 1818 a of button 1818, the tab1819″ may be inserted into the headliner 13 and into engagement with tab1817″ to secure the accessory module 1810″ to the vehicle. The accessorymodule may thus hook onto the windshield button and then snap into theheadliner of the vehicle. The housing or cover 1828″ of the accessorymodule is preferably formed so as to substantially cover tab 1819″ toenhance the appearance of the accessory module 1810″.

Referring now to FIGS. 58A-D, another embodiment of an accessory module1910 in accordance with the present invention is mountable at andloadable against an interior surface of a vehicle windshield, such as ina similar manner as discussed above with accessory module 10. Accessorymodule 1910 is substantially similar to accessory modules 10 and 910discussed above, such that a detailed discussion of the features andcharacteristics of the accessory module will not be repeated herein. Ahousing 1928 of accessory module 1910 may include a recessed area 1928 aaround a mirror mounting member 1916 b of a mount extension, in order toprovide clearance for slidable engagement of a mirror mount 1920 ontomounting member or button 1916 b of the mount extension. The recessedarea 1928 a allows the mirror mount 1920 of an interior rearview mirrorassembly 1914 to be positioned within the recessed area, while allowingfor slidable mounting of the mirror mount 1920 to the button 1916 b. Themirror mount 1920 may be secured to button 1916 b via a fastener 1920 aor other fastening or securing means, without affecting the scope of thepresent invention.

Referring now to FIGS. 59, 60 and 61A-I, upper portions of variousaccessory modules or accessory module assemblies are shown. The upperportion or head portion or accessory housing may provide a compassdisplay, a temperature display and/or other information displays or thelike for viewing by a driver of the vehicle above the rearview mirrorassembly. The upper portion may include user inputs, such as buttons foractuating a telematics system, a communication system and/or the like.The upper portion of the accessory module may further include amicrophone at a lower region thereof. The accessory module may beotherwise substantially similar to the various embodiments of accessorymodules discussed above, such that a detailed discussion of theaccessory module will not be included herein. The accessory modules mayreceive an electrochromic mirror assembly, as shown in FIG. 59, or aprismatic mirror assembly, as shown in FIG. 60, without affecting thescope of the present invention.

The upper portion or head portion may include all of the electroniccomponents or electronic circuitry necessary to provide the desiredfunction of the upper portion, while the lower portion or base may be acommon part to any of the accessory modules, such as those shown inFIGS. 59-61I, irrespective of the accessory or accessories housed in orassociated with the respective head portions. The head portions mayprovide one or more accessories or functions, and may be swapped orswitched to provide other accessories or functions to the respectivebase portion. For example, a head portion may provide a compass and/ortemperature function, such as shown in FIGS. 61A-I, and/or may provide atelematics function (and may include a microphone), such as shown inFIGS. 61C-E, 61H and 61I, and/or may provide any other suitable ordesirable accessory or function. A particular head portion, which mayhave the desired accessory or combination of accessories and associatedcontrols or buttons, may thus be selected and mounted to a common baseportion for mounting the desired accessory module to a vehicle havingthe corresponding options or features. As can be seen in FIGS. 59-61I,the head portion extends generally rearwardly from the mounting portionwith respect to the vehicle and is viewable and/or user accessiblegenerally above the rearview mirror when the accessory module assemblyis mounted in the vehicle, but optionally may be at a side or below themirror.

It is envisioned that in some vehicle button arrangements, the distancebetween the mounting button on the windshield and the headliner of thevehicle may not provide sufficient clearance to allow an accessorymodule of the present invention to align with the attachment member ormounting button during installation of the accessory module onto thebutton. The extender and/or accessory module must have enough clearanceto slide down onto and into engagement with the button on thewindshield. In situations where the distance between the button and theheadliner is insufficient to provide clearance for the accessory moduleduring installation of the accessory module (i.e., the top of theaccessory module may interfere with the headliner as the accessorymodule is being installed on the mounting button or the windshield formmay interfere with the accessory module above the mounting button, suchthat the accessory module or operator or worker at the vehicle assemblyline may mark or damage the headliner or may foul or scratch thewindshield as the operator at the assembly line mounts the accessorymodule to the mounting button), an articulatable accessory module of thepresent invention may be provided which includes a jointed portion orjoint, hinge or pivot to allow for folding or bending of the accessorymodule.

For example, and with reference to FIGS. 62A, 62B and 63A-D, a foldableor articulatable accessory module or accessory module assembly orwindshield electronics module or assembly 2010 (and/or the articulatableaccessory module or windshield electronics module 2010′ shown in FIG.65) includes a mounting or base portion or lower extension 2011 a and anarticulatable or foldable head portion or accessory housing 2011 b,which is pivotally or foldably mounted to mounting portion 2011 a.Accessory module 2010, 2010′ is adapted so head portion 2011 b can folddown toward and may be stowed at or near or along mounting portion 2011a, such that the accessory module 2010, 2010′ may be assembled on thewindshield in the folded orientation and then unfolded to an unfoldedorientation at the windshield of the vehicle, as discussed below.Mounting portion 2011 a includes a mount (such as mount 2016 a ofmounting portion 2011 a′ in FIG. 64A) which is configured to slide overan attachment member, such as a button (also not shown), positioned atand/or affixed to a windshield of a vehicle, in a similar manner asdescribed above. Mounting portion 2011 a also provides an attachmentmember, such as button 2016 b (FIGS. 63A-D), for receiving a mountingportion 2014 a of an interior rearview mirror assembly 2014. Interiorrearview mirror assembly 2014 may comprise any mirror assemblymanufactured with a mount, such as, for example, a wedge type mount orany other mirror mount type, which is adapted for mounting to button2016 b of mounting portion 2011 a. The mirror assembly 2014 may compriseone of a family of base prismatic mirror assemblies or baseelectrochromic mirror assemblies, since additional features typicallyadded as part of a mirror assembly may be part of or housed in theaccessory module 2010, 2010′.

Head portion or accessory housing 2011 b may comprise an upper and lowercover which are sandwiched around a pivot or pivot axle or rods 2011 dof a mount extension 2011 a′ (FIGS. 64A and 64B) which protrudes orextends from base portion 2011 a. Also sandwiched inside the headportion are the electronics and circuitry which provide the desiredfunctions and accessories to accessory module 2010, 2010′. Head portion2011 b may include one or more accessories and/or electronic circuitryfor one or more accessories and/or a printed circuit board (not shown),such as described above. Head portion 2011 b also may provide a displayelement or display 2054, such as a compass display, a temperaturedisplay and/or any other information or status display and/or the like,at an end of head portion 2011 b which extends over and is viewableabove the mirror reflective element 2014 b and casing 2014 c, as can beseen in FIGS. 62A and 62B. Display 2054 may include a display lens,buttons or other user input devices and/or a combination of a displaylens and buttons depending on the particular display function andapplication of accessory module 2010, 2010′. The head portion 2011 b mayalso provide user interface controls or buttons and/or accessories (notshown), such as described above.

The two cover pieces of head portion 2011 b may be molded out of apolymeric resin, such as an ABS, a glass filled Nylon or some otherengineering grade plastic or the like which may be suited to the desiredapplication by providing or achieving the desired rigidity, appearance,moldability, cost and/or the like. The display lens may comprise anacrylic material or a polycarbonate material or other suitable lighttransmitting polymeric material or the like which provides the desiredoptical properties and resistance to scratches. The buttons may comprisean engineering grade plastic and/or a resilient/elastomeric plastic,such as silicone or the like, or an elastomeric thermoplastic, such asSantoprene® or the like, depending on the particular application and thedesired appearance, wear, backlighting, cost and/or the like.

Lower extension or base portion 2011 a may comprise an upper and lowercover sandwiched around mount extension 2011 a′ which includes pivotaxle 2011 d that protrudes out of the cover pieces to provide therotational pivot for the head portion 2011 b. The mount extension 2011a′ provides the ability of mounting onto a conventional mirror mountingbutton or attachment member on the windshield, such as a wedge stylebutton or the like on the windshield, while also providing a secondarymirror mounting button or attachment member that a conventional channelmount of a rearview mirror assembly may mate to. The mount extension2011 a′ may comprise a die cast piece, such as comprising aluminum orother metallic material or the like, depending on which best meets thedesired rigidity and cost criterion of the extension. The two coverpieces may be molded out of a polymeric resin, such as a an ABS, a glassfilled Nylon or some other engineering grade plastic or the like whichmay be suitable for the application of accessory module 2010, 2010′

The lower extension or base portion 2011 a of accessory module 2010,2010′ may be assembled by locating the mount extension 2011 a′ ontoposts or the like molded in the upper cover of the base portion. Theupper cover may include snap features along a perimeter of the cover andthe lower cover may have mating snap features along a perimeter, suchthat the upper cover may snap to the lower cover around the mountextension. The base portion may include anti-vibration/anti-rattleelements. For example, either or both covers may have crush ribs moldedinto them that may allow the covers to hold tightly to the mountextension to substantially preclude a rattle condition and also to takeup any tolerance difference from part to part.

The head portion may be assembled by snapping the lower cover onto themount extension. The printed circuit board (PCB) may be located ontoposts or the like that may be molded in the lower cover of the head. Thedisplay lens or buttons may be slid into a groove that is molded intothe lower cover. The upper cover may snap onto or otherwise secure tothe lower cover. The head portion may include anti-vibration/anti-rattleelements. For example, either or both covers may have crush ribs moldedinto them that may allow the covers to hold tightly to the printedcircuit board and display lens to substantially preclude a rattlecondition and also to take up any tolerance difference from part topart.

When assembled together, head portion 2011 b is pivotally mounted tobase portion 2011 a, such as at an upper end of base portion 2011 a.Pivot axle 2011 d of mount extension 2011 a′ has two rod shapes thatcome out of the top of the mount extension and may be snapped intocorresponding cylindrical sockets (not shown) in the lower cover of thehead portion as the head portion is attached to the base portion. Headportion 2011 b thus may be pivotably attached to pivot axle or rods 2011d of mount extension 2011 a′ of base portion 2011 a, and may begenerally fixedly retained in one or more desired orientations relativeto base portion 2011 a, such as via a knob or bump on one of thecomponents (such as the knob or bump 2011 f on mount extension 2011 a′in FIGS. 64A and 64B) sliding in a groove (not shown) until it engages adivot (also not shown) in the other component to lock the head portionin place relative to the base portion. For example, the groove and thedivot may be features that are molded into the lower cover of the headportion, and may be located around a pivot point defined at thecylindrical socket or sockets that are also molded into the lower coverof the head portion for receiving the pivot axle or rods 2011 d. Theknob or raised bump 2011 f or the like may be provided next to each ofthe rods 2011 d of mount extension 2011 a′ such that when the lowercover of the head portion is assembled to the mount extension 2011 a′,the knobs 2011 f may slide in the corresponding grooves as the headportion is rotated about the pivot axle until the knobs lock in place inthe divots to secure the head portion in a desired orientation relativeto the base portion.

In order to provide clearance to the headliner of the vehicle during theinstallation of the accessory module 2010, 2010′ to the attachmentmember or mounting button, head portion 2011 b may fold down towardmounting portion 2011 a to an installation or mounting or foldedposition or orientation (FIGS. 63C and 63D), such that head portion 2011b will not interfere with the headliner while mounting portion 2011 a isslid down along and over the mounting button on the vehicle windshield.Head portion 2011 b is mounted to mounting portion 2011 a at a pivotjoint 2011 c, such as defined by pivot axle or rods 2011 d and thecorresponding sockets, and is foldable or articulatable between theinstallation or mounting or folded orientation or position and aninstalled or in-use or non-folded orientation or position (FIGS. 62A,62B, 63A, 63B and 65). When in the folded orientation, head portion 2011b is positioned generally along the mounting portion, such as shown inFIGS. 63C and 63D. Pivot joint 2011 c may comprise a spring-loaded pivotjoint or the like, which may have a biasing element or biasing member orspring or the like, and which may be biased toward the installedposition to substantially secure or retain the head portion 2011 b inthe installed or non-folded position after the accessory module ismounted to the windshield mounting button or the like. Optionally, thepivot joint 2011 c may provide detents or stops to retain the headportion 2011 b in one of the positions relative to mounting portion 2011a. As shown in FIGS. 64A and 64B, a mounting portion 2011 a′ may providea pivot axle or bar 2011 d, which may be pivotally received in acorresponding clasp or groove (not shown) of the head portion. The baseand head portions 2011 a, 2011 b of accessory module 2010, 2010′ maycomprise plastic material, such as engineering plastics or the like, ormay be die cast components, which may be covered with a cosmetic plasticcover and/or may be decorated, such as by being painted or by use of adecorative film appliqué or tape of the like, without affecting thescope of the present invention.

The articulatable accessory module 2010, 2010′ thus may fold orarticulate between a mounting or folded orientation or position, whichfacilitates mounting of the accessory module assembly to the mountingmember or button on the windshield by reducing or obviating mechanicalinterference between the head portion and the roof structure, such as atthe joint between the vehicle windshield and the roof area, such as atthe headliner area, and an in-use or non-folded orientation or position,where the accessory module is unfolded after mounting to the mountingmember or button on the windshield, in order for the accessory to beusable/viewable by the driver or occupant of the vehicle during normaluse in the vehicle. Such folding/articulation may include a breakawaycapability, whereby should the mirror head be impacted, such as in anaccident, the mirror head would move and/or break away to reducepotential injuries.

The windshield manufacturer at the windshield manufacturing site orfacility may place or adhere or bond or otherwise secure a mountingmember or mounting button on an interior surface of a windshield andtoward the upper portion of the windshield in a conventional manner, andmay ship the windshield (with the mounting button attached thereto) to avehicle or automobile assembly plant where the windshield and othercomponents of a vehicle are assembled to a vehicle or automobile as thevehicle moves along the vehicle assembly line. The accessory module maybe supplied or provided to the vehicle assembly plant from an accessorymodule supply or assembly site or facility with a corresponding mirrorassembly already attached or mounted thereto, or the mirror assembly maybe supplied from a mirror assembly or supply site or facility and may bemounted or attached to the accessory module at the vehicle assemblyplant, without affecting the scope of the present invention. As thevehicle proceeds along the assembly line, with the windshield (andbutton) installed thereon, an operator may mount an appropriateaccessory module and rearview mirror assembly to the mounting button.

In some vehicles, there may be insufficient clearance between themounting button and the headliner or header or roof of the vehicle tofacilitate non-interference mounting of an accessory module, whereby anon-folded accessory module may interfere with the headliner or theaccessory module. Also, in some vehicles, regardless of whether there issufficient clearance between the mounting button and the headliner, thecurvature or shape of the windshield may hinder or limit attachment ofan accessory module onto the mounting button, whereby an accessorymodule or the operator may foul or scratch or otherwise mark thewindshield above the mounting button during the installation process.However, the articulatable accessory module of the present inventionavoids such interferences by providing an articulatable head portionwhich folds down for installation of the accessory module onto themounting button. The operator thus may mount the articulatable accessorymodule to the mounting button while the accessory module is in itsfolded orientation (which reduces the space required to install theaccessory module and thus avoids interference with the headliner and/orthe windshield during the installation process), and then may unfold theaccessory module to its non-folded orientation after the accessorymodule is mounted to the mounting button on the windshield.

During the installation process of attaching accessory module 2010,2010′ to the windshield of a vehicle, head portion 2011 b may bearticulated or folded down relative to mounting portion 2011 a to theinstallation position or orientation, where the head portion may bepositioned generally along the mounting portion. The head portion 2011 bmay be held in this position by an operator installing the accessorymodule 2010, 2010′ or may be retained in this position by a detent orother locking device or retainer. Mounting portion 2011 a is thenpositioned at the windshield and above the attachment member or mountingbutton to align the mount of mounting portion 2011 a with the attachmentmember or mounting button. Because head portion 2011 b is folded downtoward or generally along or over mounting portion 2011 a (as shown inFIGS. 63C and 63D), head portion 2011 b is lowered to provide additionalclearance between the accessory module 2010, 2010′ and the headliner ofthe vehicle and/or the windshield itself during the installationprocess. Mounting portion 2011 a is then slid down along and onto orover the attachment member or mounting button and secured thereto in asimilar manner as discussed above. The folded down position also mayallow a vehicle harness to be connected to the accessory module withoutobstruction or the need for secondary covers or the like.

After mounting portion 2011 a is secured to the attachment member, suchas a mounting button, of the windshield, and after the wire or wireharness (if applicable) is connected to the vehicle wire harness oraccessory module, the head portion 2011 b may be unfolded or moved toits installed or in-use position, as shown in FIGS. 62A, 62B, 63A, 63Band 65. The head portion 2011 b may be manually moved to its in-useposition by the operator (such as by pushing the head portion toovercome the detents or the like or by releasing a locking device orretainer or the like), or may automatically unfold or move to its in-useposition upon release of the head portion by the operator (such as by aspring loaded or biased pivot joint or the like). When raised or movedto the in-use or installed position, the operator (i.e., the worker atthe vehicle assembly line) or the spring or biasing member may urge thehead portion toward the windshield to a preferred position ororientation with respect to the particular vehicle at which theaccessory module is mounted, so that, for example, the head portionextends generally rearwardly and is generally horizontal and the buttonsor display or the like of the head portion are facing generally rearwardwith respect to the vehicle. Optionally, a stiffening member 2017 (FIG.64C) may be provided along base or mounting portion 2011 a and/or headportion 2011 b to support and retain or substantially lock the headportion in its installed and in-use position.

For example, during assembly of a vehicle at a vehicle assembly plant, awindshield (with a mounting attachment or button or the like affixed ormounted thereto) may be supplied or provided at the vehicle assemblyplant and installed at a vehicle at an assembly line. An operator mayinstall the articulatable accessory module assembly of the presentinvention by folding the accessory module to its folded orientation andsliding or otherwise moving or positioning or mounting the mountingportion of the accessory module onto the mounting attachment at thewindshield. The operator (or a retaining device, such as a detent, bandor clip or the like) may retain the accessory module in its foldedorientation during the mounting process. The operator (or anotheroperator or a spring or biasing element or the like) may then unfold orpivot or urge the accessory module to its non-folded orientation afterthe accessory module is mounted to the mounting attachment. The operatormay install the accessory module to the mounting attachment with themirror assembly already mounted to the accessory module (where theaccessory module and mirror assembly may be provided as an assembledunit or where the operator first mounts the mirror assembly to themounting attachment of the accessory module before mounting theaccessory module (with the mirror assembly mounted thereto) to themounting attachment at the windshield), or the accessory module may bemounted to the mounting attachment at the windshield separate from themirror assembly (where the operator or another operator along theassembly line mounts the mirror assembly to the accessory module afterthe accessory module has been mounted to the mounting attachment at thewindshield and preferably after the accessory module is unfolded to itsnon-folded orientation). Optionally, and preferably before the accessorymodule is unfolded to its non-folded orientation, an operator maycomplete an electrical connection between the accessory module and thevehicle wiring, such as by connecting a wire or wire harness of theaccessory module to a corresponding wire or socket or the like of thevehicle, or by connecting a wire or wire harness of the vehicle to theaccessory module, or by contacting one or more electrical contacts atthe vehicle, such as at the windshield, mounting attachment or headlinerof the vehicle, with one or more corresponding electrical contacts ofthe accessory module.

As best shown in FIG. 65, head portion 2011 b may be pivotable orarticulatable about a pivot axis which comprises a generally horizontalpivot axis when the base portion 2011 a is mounted to the mountingbutton on the windshield. The base portion 2011 a extends generallyupward from the mounting button when attached thereto and may extendgenerally along the windshield. The head portion 2011 b extendsgenerally rearwardly with respect to the vehicle and may extendgenerally horizontally from an upper portion or upper end portion of thebase portion when the base portion is mounted to the mounting button onthe windshield and the head portion is in the non-folded or in-useorientation or position. The head portion 2011 b and/or the displayregion of the head portion is then viewable and/or user accessiblegenerally above the mirror assembly when the mirror assembly is mountedto the base portion 2011 a.

Optionally, it is further envisioned that head portion 2011 b mayinclude a camera-based accessory (not shown), such as a rain sensor orthe like, at a forward end 2011 e of head portion 2011 b, such thatunfolding of head portion 2011 b from mounting portion 2011 a moves theaccessory toward the windshield. In the movement of the head portion2011 b toward the in-use position, the head portion may urge theaccessory or rain sensor into contact with the interior surface of thewindshield and preferably into optical contact with the windshield sothat the accessory or rain sensor is optically coupled with thewindshield.

After the accessory module 2010, 2010′ is installed and head portion2011 b is moved to its installed position, the interior rearview mirrorassembly 2014 may be mounted and secured to the mirror attachment memberor attachment button 2016 b in a similar manner as discussed above. Asshown in FIGS. 62A and 62B, head portion 2011 b extends over thereflective element 2014 b and casing 2014 c of the interior rearviewmirror assembly 2014 so as to be viewable by the driver of the vehicle.The head portion 2011 b may be configured to provide optimal viewing ofthe display 2054 by the driver and/or may be adjustable by the driver toadjust the angle of the display with respect to the driver (such asdescribed above with respect to accessory module 1010) when the headportion is in the installed position.

If an electrochromic (EC) mirror assembly or lighted mirror assembly orother type of prismatic or electrochromic mirror assembly requiringelectrical connection is to be assembled to the accessory module, theprinted circuit board that is assembled in the head portion may have aharness or wire 2080 (FIG. 65) that is routed between the covers and outof a hole in the accessory module, such as a hole located on thepassenger side parting line of the accessory module (not shown in FIG.65). The harness may have a connector or plug 2080 a, which may beconnected to or plugged into the mirror assembly, such as into a socketor outlet 2082 provided at a rear portion of the casing 2024 of themirror assembly 2014, to provide the power and/or controls needed forthe mirror assembly and/or accessories or components thereof tofunction. The harness may be routed along or through a mounting arm 2022of the mirror assembly 2014 between the accessory module and the rear ofthe mirror casing 2024 of the rearview mirror assembly. As shown in FIG.65, accessory module 2010′ may include a wire cover 2084 extendingupward from head portion 2011 b generally along the windshield 12 andtoward the headliner of the vehicle for routing a wire or wire harness2086 along and through the wire cover between the accessory module andthe headliner of the vehicle to provide electrical connection betweenthe accessory module and a vehicle wiring harness in or at the headlineror roof portion of the vehicle.

Accordingly, the head portion of the accessory module assembly of thepresent invention may be foldably mounted to the mounting or baseportion to ease installation of the accessory module to an attachmentmember or mounting button at a windshield of a vehicle. The pivot jointmay be positioned generally above the location of the mounting portionof the extender on the module, such that pivoting, folding, articulatingor bending of the module at the pivot joint decreases the effectivelength or height of the accessory module above the mounting portion, inorder to provide additional clearance between the uppermost portion ofthe accessory module and the headliner of the vehicle duringinstallation of the accessory module. The accessory module may beprovided to the vehicle assembly plant in a folded over orientation tofacilitate assembly or installation of the accessory module onto themounting button. After the accessory module is mounted to the mountingbutton, the accessory module may be unfolded or straightened out to itsunfolded orientation. The accessory module may be spring loaded to easethe unfolding process after the accessory module is mounted to thebutton. The accessory module may then be unfolded and may snap orotherwise lock or secure in the unfolded orientation to substantiallypreclude folding or bending of the accessory module after installationof the accessory module to the mounting button on the windshield of thevehicle. Although shown as being unfolded to be positioned generallyabove the rearview mirror assembly when the rearview mirror assembly ismounted to the accessory module assembly, it is envisioned that theaccessory module or accessory module assembly of the present inventionmay also or otherwise extend sidewardly or downwardly to be viewableand/or accessible at one or both sides of the rearview mirror assemblyor generally below the rearview mirror assembly.

Referring now to FIGS. 66A-C, 67A-D and 68A-F, a windshield mountedelectronic accessory module 2110 comprises a mounting module 2110 amounted or secured to an interior surface of a windshield (shown at 2112as a portion of the windshield) and an accessory housing 2111 mounted tothe mounting module 2110 a. Accessory housing 2111 includes a casing2111 a and a cover plate 2111 b (shown removed from casing 2111 a inFIG. 66C) mounted to casing 2111 a and defining a windshield facing sideor surface 2111 c of housing 2111. Housing 2111 may also provide userinterface buttons or controls 2111 d at an interior surface or portion2111 e of casing 2111 a for a user to press or adjust to control theaccessory or accessories associated with accessory module 2110 or otheraccessories or the like associated with the vehicle.

Casing 2111 a includes an aperture or passageway 2115 therethrough forreceiving a mirror mounting extension 2116 and mirror mounting button2116 b of accessory mounting module 2110 a, discussed below. Cover plate2111 b defines a cavity 2113 which is recessed within casing 2111 a.Accessory module housing 2111 includes a camera or image sensor (notshown), which is positioned within housing 2111 and aligned with anaperture or opening 2113 a at cavity 2113 of cover plate 2111 b. As canbe seen with reference to FIGS. 68B-D, cavity 2113 is angled withrespect to the windshield facing side or surface 2111 c of cover plate2111 b, such that the camera is positioned generally horizontally anddirected forwardly through the windshield 2112 when accessory modulehousing 2111 is mounted to mounting module 2110 a, as discussed below.

Accessory mounting module 2110 a is substantially similar to accessorymodule 1310, discussed above, and includes an accessory 2138, such as arain sensor or the like, which may be loaded against the interiorsurface of the windshield, such as by using the principles disclosed inU.S. Pat. Nos. 6,341,523 and 6,250,148, and/or in U.S. patentapplication Ser. No. 10/023,162, filed Dec. 17, 2001, now U.S. Pat. No.6,516,664; and Ser. No. 10/348,514, filed Jan. 21, 2003, now U.S. Pat.No. 6,968,736, which are all hereby incorporated herein by reference.Accessory mounting module 2110 a is mounted at the interior surface ofthe windshield, such as via an attachment member or mounting button atthe windshield or via a suitable adhesive or bonding material or thelike. As discussed above with respect to accessory module 1310, acentral region of accessory mounting module 2110 a is generally open toreceive accessory 2138 therein, such that accessory 2138 may be loadedagainst the windshield at the center region of the module. Accessorymounting module 2110 a includes a mounting extension 2116 which furtherincludes a mirror attachment member or mounting button 2116 b at an endthereof for mounting an interior rearview mirror assembly (not shown) tomounting module 2110 a. Because mounting module 2110 a is substantiallysimilar to accessory module 1310 discussed above, a detailed discussionof the module will not be repeated herein.

As can be seen with reference to FIGS. 68A-F, accessory module housing2111 may be mounted to accessory mounting module 2110 a by positioningaccessory module housing 2111 at mounting module 2110 a and aligningaperture 2115 of housing 2111 with attachment member 2116 b of mountingmodule 2110. Accessory module housing 2111 may then be moved or pressedinto place over mounting module 2110 a while attachment member 2116protrudes through aperture 2115. As discussed above with respect toaccessory module 1310, accessory module housing 2111 may snap orotherwise secure to mounting module 2110 a to retain accessory modulehousing 2111 at the windshield. The interior rearview mirror assemblymay then mount to mirror attachment member 2116 b. When assembled andmounted at the windshield, the camera of accessory module housing 2111is positioned adjacent to the cavity 2113 of cover plate 2111 b andoriented in a generally horizontal position for viewing through theaperture 2113 a and capturing an image of a scene occurring exteriorlyand generally forwardly of the vehicle.

It is further envisioned that the windshield facing surface 2110 b ofthe mounting module 2110 a and/or the windshield facing surface 2111 cof housing 2111 may include a black out surface or material or skirt orcurtain type of layer or material, preferably a resilient material, suchas an elastomeric material, such as a silicone material or the like, ora blackened or darkened or otherwise colored surface or layer, toprovide a black out region at the windshield interface of the mountingmodule 2110 a and/or housing 2111. The darkened or blackened region mayprovide a port or aperture aligned with the rain sensor of the mountingmodule 2110 a or camera within the housing 2111. Thus, the need for aceramic frit layer or the like on the windshield at the mounting area ofthe accessory module may be obviated. This also improves the assemblyprocess of the vehicle, since the operator does not have to align therain sensor and/or camera with an aperture in a frit layer as theoperator mounts the accessory mounting module to the windshield.

The present invention thus facilitates a reduction or deproliferation ofpart numbers at a vehicle assembly plant. For optional camera basedaccessories, such as rain sensors or headlamp controls or the like, orother accessories which may be included in a windshield mountedelectronic accessory module of the present invention, multiple differentinterior rearview mirror assemblies and associated part numbers are notrequired. For example, the accessory module or modules may have one partnumber or may have a family part number with a particular number orletter assigned to the particular accessory option or combination (suchas, for example, an eight digit part number for the accessory modulefollowed by the letter A for a rain sensor only option, B for a rainsensor option and a headlamp control option, and/or the like). Thevehicle line may then only have a restricted or reduced number ofdifferent interior rearview mirror assemblies and associated partnumbers for use with the accessory modules (such as, for example, a baseprismatic mirror assembly, a lighted prismatic mirror assembly, a baseelectrochromic mirror assembly and a lighted electrochromic mirrorassembly and/or the like). Thus, multiple mirror assemblies with variousoptions and their associated part numbers may not be required, therebyimproving the assembly process of the vehicle.

Therefore, the present invention provides an accessory module whichincludes a head portion which extends from a mounting portion generallyrearwardly with respect to the vehicle and generally above an interiorrearview mirror assembly mounted or attached to the mounting portion ofthe accessory module. The accessory module may also or otherwise includea head portion which extends generally rearwardly with respect to thevehicle and generally to one or both sides or generally below therearview mirror assembly mounted or attached to the mounting portion ofthe accessory module. The head portion of the accessory module may bemovable or pivotable or articulatable relative to the mounting portion.The head portion may articulate relative to the mounting portion to afolded or mounting orientation to facilitate mounting of the accessorymodule to the mounting attachment or button at the windshield. Theaccessory module of the present invention thus enhances the process ofinstalling or mounting or attaching the accessory module to the buttonat the vehicle windshield.

An accessory module in accordance with the present invention may bemovable into engagement with the windshield of a vehicle such that theaccessory module may be moved generally perpendicularly toward andloaded against the windshield. The present invention may include arotating mirror mount/breakaway mount for mounting the accessory moduleto a mount extension that includes electrical contacts. When theaccessory module is connected mechanically to the mount extension, theelectrical contacts may be inserted in such a way that the electricalconnections are made at the same time. The accessory module mount maycomprise a single or dual pivot mount or a breakaway mount. Theaccessory module mount may make electrical connection or contact withelectrical connectors or pins at the mounting button or the like at thewindshield or headliner of the vehicle when the mount is mechanicallyconnected or mounted to the mounting button or mounting extension or thelike. The accessory module may be of the type disclosed in commonlyassigned U.S. patent application Ser. No. 10/054,633, filed Jan. 22,2002, now U.S. Pat. No. 7,195,381; U.S. provisional applications, Ser.No. 60/420,560, filed Oct. 23, 2002; Ser. No. 60/398,346, filed Jul. 24,2002; Ser. No. 60/381,314, filed May 17, 2002; Ser. No. 60/374,724,filed Apr. 23, 2002; Ser. No. 60/364,008, filed Mar. 14, 2002; and Ser.No. 60/350,965, filed Jan. 31, 2002; and/or International PublicationNo. WO 01/64481, published Sep. 7, 2001, which are all herebyincorporated herein by reference.

Optionally, the accessory module mount may comprise a bolt on mirrormount/breakaway mount that includes electrical contacts, such that asthe bolt on mirror mount is connected to the mount extension, theelectrical connections are made. Accordingly, when the accessory moduleis connected mechanically (and tightened down), the electricalconnections are made to provide electrical power and signals to theaccessory module. Optionally, the accessory module may include arechargeable battery pack, such that no power connection to the vehiclepower source or battery is required. The rechargeable battery pack maybe detachable from the accessory module and may be plugged into avehicle power outlet for recharging, or a portion of the accessorymodule housing the battery pack may be detachable for recharging of thebattery pack.

The accessory module may be mounted at the windshield in a manner whichloads or biases the accessory module toward and against the windshield.This provides, for example, an optical coupling of an accessory of theaccessory module with the surface of the window, such as for a rainsensor which is coupled to the surface of the window. Preferably, theaccessory module is mounted to the button on the window in a mannerwhich allows perpendicular placement and loading of the module and/or ofa rain sensor or camera device to and against the interior surface ofthe windshield. Optionally, accessory module attachment or mountingmember may be movable along the mounting member at the surface of thewindow, wherein the attachment members are formed to draw the meetingface of the electric module into intimate contact with the surface ofthe window. The mirror attachment members may comprise a narrowing orwidening rail or the like, such that the interference between theattachment members increases to tighten the members together as one isslid or moved along the other.

The accessory module may include an image sensor, such as an imagingarray sensor, which is directed forward through the windshield forimaging a forward field of view. The accessory module includes acomponent that is positionable at the windshield to provide a form of adust or chemical fogging shroud. The component thus keeps the windowclean and unfogged in a portion near or at the image sensor of theaccessory module. The component, which may be a sealing member or thelike, is preferably loaded against the interior surface of thewindshield to define a seal around the image sensor so as tosubstantially seal the image sensor within a chamber defined by themodule and the interior surface of the windshield. The component may beadjustable to adjust an angle of the image sensor relative to horizontalor relative to the windshield of the vehicle.

The accessory module may include a microphone and a shroud or coverextending at least partially around or over the microphone to protectthe microphone from wind noise or blower noise or the like. For example,a clamshell or half-cup type cover may extend over the microphone withthe microphone being placed partially therein or just above the shroud.The shroud then functions to direct blown air around and/or away fromthe microphone to prevent or limit the microphone from receiving ordetecting the blown air.

The accessory module may also include a forward looking image sensorwhich is operable as an ambient light sensor, and which may replace anEC forward ambient light sensor of the interior rearview mirror.Optionally or additionally, a rearfacing image sensor may replace an ECrearward ambient light sensor.

The accessory module may include a smart headlamp control, such asdisclosed in U.S. Pat. Nos. 6,097,023 and 5,796,094, which are herebyincorporated herein by reference. The headlamp control may be operableto detect and recognize various street and/or traffic signs via an imagesensor. The image sensor and headlamp control may further be operable torecognize the speed limit numbers on a speed limit sign and to warn thedriver if the vehicle exceeds the speed limit by a predetermined amount.The accessory module may have an interface (such as voice, touch screen,etc.) that would set a personal threshold for over-speed warning.

Such a system could be implemented for warning signs (turns, hills,etc.) or the like. For example, the image sensor and headlamp controlmay be operable to detect and recognize a railroad crossing sign andfurther recognize that the railroad crossing sign is activated (such asby distinguishing the flashing lights characteristic of a railroadcrossing signal) due to an approaching train. The accessory module couldthen warn the driver that the vehicle is approaching a dangerouscondition. Additionally, the image sensor and headlamp control may beoperable to detect other signals, such as a school bus stopping signalor a pedestrian road crossing signal or the like.

The accessory module of the present invention may include, such as onthe printed circuit board (such as on a generally flat circuit board ofthe type discussed above with respect to accessory modules 1010, 1110),a photo sensor, preferably a photo transistor or photo diode, which isresponsive to ambient light levels. The printed circuit board may beoperable to dim the display intensity of a display of the accessorymodule during night time driving conditions or other darkened conditionswhere excessive brightness or glare of the display may be distracting orannoying to the driver of the vehicle. Alternately, the circuitry couldbe connected to the instrument panel wiring and may be operable to dimthe instrument panel lights to provide instrument panel dimming duringdarkened conditions.

The accessory module of the present invention may include electrochromiccontrol circuitry for controlling the reflectivity of an electrochromicmirror. The circuitry may include a rearward viewing glare detector orsensor and a forward viewing and/or sideward viewing ambient lightdetector or sensor, such as described in U.S. Pat. No. 4,793,690, whichis hereby incorporated herein by reference, or may include a singlesensor, such as described in U.S. Pat. No. 5,193,029, which is herebyincorporated herein by reference. The output of the circuitry maycontrol an outside electrochromic mirror as well as the interiorrearview electrochromic mirror. It is further envisioned that thecircuitry may control an outside electrochromic mirror, while theinterior rearview mirror assembly mounted at the accessory module may bea prismatic mirror, without affecting the scope of the presentinvention. Further, automatic dimming circuitry used in theelectrochromic mirror assembly may utilize one or more (typically two)photo sensors to detect glaring and/or ambient lighting. For example, asilicon photo sensor, such as a TSL235R Light-to-Frequency converter(available from Texas Advanced Optoelectronic Solutions Inc. of Plano,Tex.), can be used as such photo sensors. Such light-to-frequencyconverters comprise the combination of a silicon photodiode and acurrent-to-frequency converter on a single monolithic CMOS integratedcircuit.

Optionally, the accessory module may include a microphone or a pluralityof microphones or a sound acquisition system, such as described incommonly assigned, U.S. Pat. Nos. 6,243,003 and 6,278,377, and/or U.S.patent application Ser. No. 09/466,010, filed Dec. 17, 1999, now U.S.Pat. No. 6,420,975, which are hereby incorporated herein by reference,which may detect audible signals from a remote source, such as arailroad crossing signal or train whistle. The system may then beoperable to further determine whether the railroad crossing signal isactivated, by visually and/or audibly recognizing the condition, and toprovide a warning to the driver of the subject vehicle that the vehicleis approaching a railroad track with an oncoming train.

In many new vehicles, the headlamps are high intensity dischargeheadlamps, which require that the headlamps be directed generallyparallel to the road, in order to prevent the headlamps from beingdirected toward the eyes of drivers in oncoming traffic. The headlampcontrol of the present invention may be operable to detect whether theheadlamps are directed more toward the sky or toward the road and thenautomatically adjust them to make them generally parallel to the road.Additionally, the headlamp control may be operable to control theattitude of the vehicle and/or the pitch of the vehicle in response to adetection of the direction in which the headlamps are directed.

The present invention further includes an interior rearview mirrorassembly which is mounted to an interior surface of the windshield or atthe headliner of the vehicle. The interior rearview mirror assembly maycomprise a prismatic mirror or an electrochromic mirror, such as anelectrochromic mirror assembly and electrochromic element utilizingprinciples disclosed in commonly assigned U.S. Pat. No. 5,140,455;5,151,816; 6,178,034; 6,154,306; 6,002,544; 5,567,360; 5,525,264;5,610,756; 5,406,414; 5,253,109; 5,076,673; 5,073,012; 5,117,346;5,724,187; 5,668,663; 5,910,854; 5,142,407 or 4,712,879, which arehereby incorporated herein by reference, or as disclosed in thefollowing publications: N. R. Lynam, “Electrochromic AutomotiveDay/Night Mirrors”, SAE Technical Paper Series 870636 (1987); N. R.Lynam, “Smart Windows for Automobiles”, SAE Technical Paper Series900419 (1990); N. R. Lynam and A. Agrawal, “Automotive Applications ofChromogenic Materials”, Large Area Chromogenics: Materials and Devicesfor Transmittance Control, C. M. Lampert and C. G. Granquist, EDS.,Optical Engineering Press, Wash. (1990), which are hereby incorporatedby reference herein, and in U.S. patent application Ser. No. 09/792,002,filed Feb. 26, 2001, now U.S. Pat. No. 6,690,268, which is herebyincorporated herein by reference. Optionally, a pod attachment, such asthe type disclosed in U.S. Pat. Nos. 5,576,687 and 5,708,410, which arehereby incorporated herein by reference, may attach to the rearviewmirror assembly.

The electrochromic mirror element may comprise a pair of substrates, andwith the rear surface of the rear substrate (commonly referred to as the“fourth surface” of the reflective element) having a silver reflectivecoating (that itself may have a copper coating and paint coating appliedthereto for corrosion protection) deposited thereon, most commonly usingwet chemical silvering, as known in the mirror making art. Optionally,the mirror element may comprise a polymeric reflective film that may beapplied to the rear surface of the rear substrate of the electrochromicelement after the pair of substrates have been joined to form theelectrochromic cell of the electrochromic mirror element. Such areflective film may comprise a polymeric reflective film, such as an allpolymer-thin-film multilayer, high reflective mirror film, such as amultilayer, non-metallic reflective film which may comprise multiplecoextrusion of many plastic layers to form a highly reflective mirrorfilm. Such a reflective film thus may comprise multilayers of polymermaterials to form a highly reflective mirror film, such as a RadiantLight Film, a Radiant Mirror Film or a Radiant Color Film, such ascommercially available from 3M of St. Paul, Minn., such as a RadiantColor Film CM590 or CM500.

The reflective polymeric film may be provided in a reel or roll form orstrip and may be attached or applied to the rear surface of the rearsubstrate, such as via laminating or adhering the film to the substratematerial using optical adhesive and/or via rolling or ironing the filmor sheet (preferably at an elevated temperature and with vacuum assist)onto the substrate surface, to secure the reflective film to thesubstrate. It is envisioned that the reflective polymeric film may beunwound or unrolled and applied along an extruded substrate material asthe substrate material is generally continuously extruded or cast duringa generally continuous extrusion or casting process. The substratematerial may then be cut, such as via laser cutting, after thereflective polymeric film is applied thereto to form the rear substrate.

Optionally, the cutting process may occur after an anti-abrasion film orthe like is applied to the opposite surface of the substrate material,such as an anti-abrasion film applied to the opposite surface viaunrolling and applying the film to the extruded substrate material asthe substrate material is generally continuously extruded. Theanti-abrasion coated film may thus be laminated to or adhered to orotherwise secured to the front surface of the rear substrate, while thereflective film is applied to the rear surface of the rear substrate.Optionally, a hydrophobic or hydrophilic film may also or otherwise beapplied to the substrate. The reflective polymeric film, theanti-abrasion film and the substrate material may all be formed of thesame resin to match coefficients of thermal expansion and thus reducethermal expansion/contraction mismatches between the materials. Ofcourse, it is envisioned that such reflective films or reflectivesystems may be used for prismatic mirrors as well. In such applications,a glass prism may be formed and the reflective film or reflectivepolymeric film may be applied to a second or rear surface thereof.

Optionally, the interior rearview mirror assembly may comprise atransflective one way mirror, such as disclosed in commonly assignedU.S. patent application Ser. No. 10/054,633, filed Jan. 22, 2002, nowU.S. Pat. No. 7,195,381, which is hereby incorporated herein byreference. Preferably, the mirror reflective element (behind which thevideo display screen is disposed so that the image displayed is visibleby viewing through the mirror reflective element) of the interior mirrorassembly comprises a transflective mirror reflector such that the mirrorreflective element is significantly transmitting to visible lightincident from its rear (i.e. the portion furthest from the driver in thevehicle), with at least about 15% transmission preferred, at least about20% transmission more preferred and at least about 25% transmission mostpreferred, while simultaneously, the mirror reflective element issubstantially reflective to visible light incident from its front (i.e.the position closest to the driver when the interior mirror assembly ismounted in the vehicle), with at least about 60% reflectance preferred,at least about 70% reflectance more preferred and at least about 75%reflectance most preferred. Preferably, a transflective electrochromicreflective mirror element is used (such as is disclosed in U.S. patentapplication Ser. No. 09/793,002, filed Feb. 26, 2001, now U.S. Pat. No.6,690,268 and in U.S. Pat. Nos. 5,668,663 and 5,724,187, the entiredisclosures of which are hereby incorporated by reference herein) thatcomprises an electrochromic medium sandwiched between two substrates.

The interior rearview mirror assembly may include a display on demand(DOD) display (such as disclosed in commonly assigned, U.S. patentapplication Ser. No. 10/054,633, filed Jan. 22, 2002, now U.S. Pat. No.7,195,381, U.S. patent application Ser. No. 09/793,002, filed Feb. 26,2001, now U.S. Pat. No. 6,690,268, and in U.S. Pat. Nos. 5,668,663 and5,724,187, the entire disclosures of which are hereby incorporated byreference herein) which comprises two displays located in the mirrorassembly. When the left turn signal is turned on, a blind spot/lanechange aid camera view or hazard indication may be displayed in themirror (preferably via a display on demand indicia or display) on theright hand side. This is because the view in the mirror on the left handside is more critical to the driver of the vehicle when making a lefthand turn. The opposite would be true with right turn signal. However,the signals may be displayed on the other sides as well, withoutaffecting the scope of the present invention. For example, when the leftturn signal is activated, the blind spot camera view or hazardindication may be displayed in the mirror (preferably via a display ondemand indicia or display) on the left hand side. Optionally, the mirrormay include a display portion at the right hand side of the mirror whichis angled or canted relative to the main reflective surface of themirror, such that the angled display portion is canted toward the driverof the vehicle to enhance viewing of the angled display portion by thedriver, such as the display type disclosed in commonly assigned, U.S.patent application Ser. No. 09/793,002, filed Feb. 26, 2001, now U.S.Pat. No. 6,690,268, which is hereby incorporated by reference herein.

The display can also be accomplished when a single large display is usedin interior rearview mirror (such as via a DOD indicia or display) whereonly a portion of the display is activated to show the image. This canalso be accomplished with displays located on the ends of the mirrorsurface (such as non-DOD displays). In this case the blind spot imagewould be displayed on the same side as the turn indicated.

The interior rearview mirror assembly may include a single largedisplay, which provides a display surface behind the whole mirrorsurface that allows images, icons, text, etc. to be placed anywhere onthe viewable mirror surface.

Also, any of the vehicular accessories disclosed above, such as interiorrearview mirror assemblies and accessory modules, such as windshieldelectronic modules, and having at least a portion with a view throughthe front windshield of the vehicle, can include ultra small informationdisplays, such as are disclosed in U.S. provisional application Ser. No.60/314,457, filed Aug. 23, 2001; and in U.S. patent application Ser. No.10/225,851, filed Aug. 22, 2002, now U.S. Pat. No. 6,847,487, the entiredisclosures of which are hereby incorporated by reference herein. Suchultra-small displays may be of a transmissive-type or a reflective type.For example, the ultra small liquid crystal display (LCD) available fromKopin Corporation of Taunton, Mass. is a transmissive type. KopinCorporation utilizes silicon-on-insulator SOI wafers to buildtransmissive displays. Kopin Corporation's product utilizes thinmonocrystal silicon thin film transistors Si-TFT of several micronspeeled off from the circuit board to filter out light, and employs afield sequential method, which shows images in accordance withsequentially changing red, green, and blue. The display has a highdegree of transmissivity because it does not need color filters. Imagequality depends on color purity of the light emitting diode used as theillumination source.

The micro-display may be used as a gauge (replace TFT because do nothave to cut TFT glass to fit, just the screen glass).

The present invention may further include an electronic field sensor(EFS) which is operable to: sense motion; detect when motion stops, inorder to prevent SID/Sleep Apnea; and/or sense intrusion.

The EFS may be combined with Thermile Pile (FOV or multiple sensors);with image sensor (all types) (FOV or multiple sensors); with amicrophone; and/or with Smart Release (FOV or multiple sensors).

The sensor design (size, shape, type, material, # of sensors,sensitivity, etc.) may be adjusted or adapted depending on theparticular vehicle or application of the EFS.

Examples of electronic field sensors are disclosed in commonly assignedU.S. patent application Ser. No. 09/992,119, filed Nov. 14, 2001, nowU.S. Pat. No. 6,768,420, which is hereby incorporated herein byreference.

The present invention further provides for a combination of multiplefeatures (i.e. rain, headlamp, etc.) in a single chip/sensor of theaccessory module or interior rearview mirror assembly.

Changes and modifications in the specifically described embodiments canbe carried out without departing from the principles of the presentinvention, which is intended to be limited only by the scope of theappended claims, as interpreted according to the principles of patentlaw.

The embodiments of the invention in which an exclusive property orprivilege is claimed are defined as follows:
 1. An accessory system fora vehicle, said vehicular accessory system comprising: a mountingelement attached at a vehicle windshield of a vehicle equipped with theaccessory system; wherein said mounting element comprises an attachmentportion at a first side of said mounting element for attachment of saidmounting element at the vehicle windshield; wherein, at least when saidmounting element is attached at the vehicle windshield, a module ismounted at a second side of said mounting element that opposes saidfirst side; wherein said module includes attaching structure thatcooperates with attaching structure of said mounting element in order todetachably mount said module at said mounting element; wherein saidmodule has a windshield-facing side that faces towards the vehiclewindshield when said module is mounted at said mounting element attachedat the vehicle windshield; wherein said module has a cabin-facing sidethat faces away from the vehicle windshield towards the interior cabinof the equipped vehicle when said module is mounted at said mountingelement attached at the vehicle windshield; wherein said module has ahousing having a windshield-facing side and a cabin-facing side; whereina camera is disposed in said module; said camera comprising a CMOSimaging array sensor and a lens; wherein said camera, with said modulemounted at said mounting element attached at the vehicle windshield,views forwardly through the vehicle windshield via a generallywedge-shaped structure of the windshield-facing side of said housing;wherein said camera captures image data for a driver assistance systemof the equipped vehicle; and wherein electrical circuitry is disposed insaid module and wherein, with said module mounted at said mountingelement attached at the vehicle windshield, said electrical circuitrycommunicates over a vehicle communication bus with at least one systemof the equipped vehicle.
 2. The vehicular accessory system of claim 1,wherein at least one of (i) said attachment portion of said mountingelement is generally flat and (ii) said mounting element comprises ametallic mounting element.
 3. The vehicular accessory system of claim 1,wherein said attaching structure of said module snap attaches to saidmounting element to mount said module at said mounting element.
 4. Thevehicular accessory system of claim 1, wherein said module accommodatesa rain sensor.
 5. The vehicular accessory system of claim 4, wherein,with said module mounted at said mounting element attached at thevehicle windshield, said rain sensor optically couples with the vehiclewindshield.
 6. The vehicular accessory system of claim 1, wherein saidlens is spaced from the vehicle windshield when said module is mountedat said mounting element attached at the vehicle windshield.
 7. Thevehicular accessory system of claim 1, wherein at least a part of saidlens protrudes from said module into said wedge-shaped structure.
 8. Thevehicular accessory system of claim 1, wherein, with said module mountedat said mounting element attached at the vehicle windshield, saidwedge-shaped structure is angled relative to the general plane of thewindshield-facing side of said module.
 9. The vehicular accessory systemof claim 8, wherein, with said mounting element attached at the vehiclewindshield and with said module mounted at said mounting element, saidangling relative to the general plane of the windshield-facing side setsthe principal axis of the forward field of view of said camera generallyat or below horizontal.
 10. The vehicular accessory system of claim 1,wherein, with said mounting element attached at the vehicle windshieldand with said module mounted at said mounting element, the principalaxis of the forward field of view of said camera is generally at orbelow horizontal.
 11. The vehicular accessory system of claim 1,including a detachable cover that is detachable to access said camerawith said module mounted at said mounting element attached at thevehicle windshield.
 12. The vehicular accessory system of claim 1,wherein said wedge-shaped structure is widest at the vehicle windshieldand tapers from the vehicle windshield towards where said camera islocated.
 13. The vehicular accessory system of claim 1, wherein saidmodule comprises a first portion and a second portion, said firstportion extending generally upward when said module is mounted at saidmounting element attached at the vehicle windshield, said first portionhaving an attachment member, said second portion extending generallyhorizontally and rearwardly from said first portion with respect to thevehicle windshield, said second portion comprising electronic circuitry,and wherein an interior rearview mirror assembly comprising a mirrorcasing and a reflective element is mountable to said attachment member,said second portion extending from said first portion generally abovethe mirror casing and being at least one of viewable and user accessibleabove the mirror casing when an interior rearview mirror assembly ismounted to said attachment member, and wherein said second portion ismovably attached to said first portion and is movable relative to saidfirst portion, and wherein said second portion is pivotable relative tosaid first portion about a generally vertical pivot axis to adjust theangle of said second portion.
 14. The vehicular accessory system ofclaim 13, wherein said second portion comprises at least one of adisplay element and a user input device associated with at least one of(i) a compass system of the equipped vehicle, (ii) a microphone systemof the equipped vehicle and (iii) a garage door opener system of theequipped vehicle.
 15. The vehicular accessory system of claim 1, whereinsaid vehicle communication bus comprises a LIN bus.
 16. The vehicularaccessory system of claim 1, wherein said vehicle communication buscomprises a CAN bus.
 17. The vehicular accessory system of claim 1,wherein said vehicle communication bus comprises a MOST bus.
 18. Thevehicular accessory system of claim 1, wherein said electrical circuitryis disposed on a printed circuit board and wherein said electricalcircuitry comprises a microprocessor, memory and a power supply.
 19. Thevehicular accessory system of claim 1, wherein said electrical circuitrycommunicates over said vehicle communication bus to provide an output toat least one system of the equipped vehicle.
 20. The vehicular accessorysystem of claim 19, wherein said output communicated over said vehiclecommunication bus comprises a status indication.
 21. The vehicularaccessory system of claim 20, wherein said status indication comprisesat least one of (i) an intelligent headlamp control status, (ii) a rainsensor status, (iii) a compass status, (iv) an ambient light levelstatus, (v) an exterior condition status, (vi) an autolamp status and(vii) a sunload status.
 22. The vehicular accessory system of claim 19,wherein said output communicated over said vehicle communication buscomprises a high beam activation for a headlight of the equippedvehicle.
 23. The vehicular accessory system of claim 1, wherein saidelectrical circuitry receives an input over said vehicle communicationbus from at least one system of the equipped vehicle.
 24. The vehicularaccessory system of claim 23, wherein said input received over saidvehicle communication bus comprises at least one of (i) an intelligentheadlamp control enabled status, (ii) an intelligent headlamp controldisabled status, (iii) a gear transmission status, (iv) a headlampstatus, (v) a vehicle speed, (vi) a steering wheel angle and (vii) aturn signal status.
 25. The vehicular accessory system of claim 1,wherein said module comprises a connector for connecting to said vehiclecommunication bus.
 26. The vehicular accessory system of claim 25,wherein said connector comprises a multi-pin connector.
 27. Thevehicular accessory system of claim 1, wherein said electrical circuitrycomprises a microprocessor.
 28. The vehicular accessory system of claim27, wherein said electrical circuitry comprises memory.
 29. Thevehicular accessory system of claim 28, wherein said electricalcircuitry comprises a power supply.
 30. The vehicular accessory systemof claim 1, wherein said attachment portion of said mounting element isadhesively attached at the vehicle windshield of the equipped vehicle.31. The vehicular accessory system of claim 1, wherein saidwindshield-facing side of said module comprise a recess and wherein saidrecess forms, at least in part, said wedge-shaped structure via whichsaid camera, with said module mounted at said mounting element attachedat the vehicle windshield, views forwardly through the vehiclewindshield.
 32. The vehicular accessory system of claim 1, wherein saidmodule comprises an attachment element configured for attachment of aninterior rearview mirror assembly thereto.
 33. The vehicular accessorysystem of claim 1, wherein structure of said module angles the field ofview of said camera with respect to the vehicle windshield to at leastpartially compensate for the windshield angle of the vehicle windshieldin the equipped vehicle.
 34. The vehicular accessory system of claim 33,wherein a principal axis of the forward field of view of said camera isdirected generally at or below horizontal when said module is mounted atsaid mounting element attached at the vehicle windshield.
 35. Thevehicular accessory system of claim 1, wherein said attachment portionof said mounting element is configured for adhesive attachment at thevehicle windshield.
 36. The vehicular accessory system of claim 1,wherein said driver assistance system comprises at least one of (i) alane departure warning system of the equipped vehicle, (ii) an adaptivecruise control system of the equipped vehicle, (iii) a sign recognitionsystem of the equipped vehicle, (iv) a night vision system of theequipped vehicle, (v) a pedestrian detection system of the equippedvehicle, (vi) a vehicle detection system of the equipped vehicle and(vii) a crash avoidance system of the equipped vehicle.
 37. Thevehicular accessory system of claim 36, wherein said driver assistancesystem comprises a headlamp control system of the equipped vehicle. 38.The vehicular accessory system of claim 1, wherein said camera capturesimage data for at least two of (i) a lane departure warning system ofthe equipped vehicle, (ii) a sign recognition system of the equippedvehicle, (iii) a pedestrian detection system of the equipped vehicle and(iv) a vehicle detection system of the equipped vehicle.
 39. Thevehicular accessory system of claim 38, wherein said camera capturesimage data for a headlamp control system of the equipped vehicle.
 40. Anaccessory system for a vehicle, said vehicular accessory systemcomprising: a mounting element attached at a vehicle windshield of avehicle equipped with the accessory system; wherein said mountingelement comprises an attachment portion at a first side of said mountingelement for attachment of said mounting element at the vehiclewindshield; wherein, at least when said mounting element is attached atthe vehicle windshield, a module is mounted at a second side of saidmounting element that opposes said first side; wherein said moduleincludes attaching structure that cooperates with attaching structure ofsaid mounting element in order to detachably mount said module at saidmounting element; wherein said module has a windshield-facing side thatfaces towards the vehicle windshield when said module is mounted at saidmounting element attached at the vehicle windshield; wherein said modulehas a cabin-facing side that faces away from the vehicle windshieldtowards the interior cabin of the equipped vehicle when said module ismounted at said mounting element attached at the vehicle windshield;wherein said module has a housing having a windshield-facing side and acabin-facing side; wherein a camera is disposed in said module; saidcamera comprising a CMOS imaging array sensor and a lens; wherein saidcamera, with said module mounted at said mounting element attached atthe vehicle windshield, views forwardly through the vehicle windshieldvia a generally wedge-shaped structure of the windshield-facing side ofsaid housing; wherein said camera captures image data for driverassistance system of the equipped vehicle; wherein electrical circuitryis disposed in said module and wherein, with said module mounted at saidmounting element attached at the vehicle windshield, said electricalcircuitry communicates over a vehicle communication bus with at leastone system of the equipped vehicle; wherein said lens is spaced from thevehicle windshield when said module is mounted at said mounting elementattached at the vehicle windshield; wherein, with said mounting elementattached at the vehicle windshield and with said module mounted at saidmounting element, the principal axis of the forward field of view ofsaid camera is generally at or below horizontal; and wherein at leastone of (a) said electrical circuitry communicates over said vehiclecommunication bus to provide an output to at least one system of theequipped vehicle and (b) said electrical circuitry receives an inputover said vehicle communication bus from at least one system of theequipped vehicle.
 41. The vehicular accessory system of claim 40,wherein at least two of (i) said attachment portion of said mountingelement is generally flat, (ii) said mounting element comprises ametallic mounting element, (iii) wherein said attachment portion of saidmounting element is configured for adhesive attachment at the vehiclewindshield and (iv) said attaching structure of said module snapattaches to said mounting element to mount said module at said mountingelement.
 42. The vehicular accessory system of claim 40, wherein saidmodule accommodates a rain sensor and wherein, with said module mountedat said mounting element attached at the vehicle windshield, said rainsensor optically couples with the vehicle windshield.
 43. The vehicularaccessory system of claim 40, wherein, with said module mounted at saidmounting element attached at the vehicle windshield, said wedge-shapedstructure is angled relative to the general plane of thewindshield-facing side of said module and wherein, with said mountingelement attached at the vehicle windshield and with said module mountedat said mounting element, said angling relative to the general plane ofthe windshield-facing side sets the principal axis of the forward fieldof view of said camera generally at or below horizontal.
 44. Thevehicular accessory system of claim 40, including a detachable coverthat is detachable to access said camera with said module mounted atsaid mounting element attached at the vehicle windshield.
 45. Thevehicular accessory system of claim 40, wherein said vehiclecommunication bus comprises a LIN bus.
 46. The vehicular accessorysystem of claim 40, wherein said vehicle communication bus comprises aCAN bus.
 47. The vehicular accessory system of claim 40, wherein saidelectrical circuitry communicates over said vehicle communication bus toprovide an output to at least one system of the equipped vehicle andwherein said output communicated over said vehicle communication buscomprises a status indication.
 48. The vehicular accessory system ofclaim 47, wherein said status indication comprises at least one of (i)an intelligent headlamp control status, (ii) a rain sensor status, (iii)a compass status, (iv) an ambient light level status, (v) an exteriorcondition status, (vi) an autolamp status and (vii) a sunload status.49. The vehicular accessory system of claim 40, wherein said electricalcircuitry receives an input over said vehicle communication bus from atleast one system of the equipped vehicle and wherein said input receivedover said vehicle communication bus comprises at least one of (i) anintelligent headlamp control enabled status, (ii) an intelligentheadlamp control disabled status, (iii) a gear transmission status, (iv)a headlamp status, (v) a vehicle speed, (vi) a steering wheel angle and(vii) a turn signal status.
 50. The vehicular accessory system of claim40, wherein said module comprises a connector for connecting to saidvehicle communication bus and wherein said connector comprises amulti-pin connector.
 51. The vehicular accessory system of claim 40,wherein said wedge-shaped structure is widest at the vehicle windshieldand tapers from the vehicle windshield towards where said camera islocated.
 52. The vehicular accessory system of claim 40, wherein saidattachment portion of said mounting element is adhesively attached atthe vehicle windshield of the equipped vehicle.
 53. The vehicularaccessory system of claim 40, wherein said windshield-facing side ofsaid module comprise a recess and wherein said recess forms, at least inpart, said wedge-shaped structure via which said camera, with saidmodule mounted at said mounting element attached at the vehiclewindshield, views forwardly through the vehicle windshield.
 54. Thevehicular accessory system of claim 40, wherein structure of said moduleangles the field of view of said camera with respect to the vehiclewindshield to at least partially compensate for the windshield angle ofthe vehicle windshield in the equipped vehicle.
 55. The vehicularaccessory system of claim 40, wherein said driver assistance systemcomprises at least one of (i) a lane departure warning system of theequipped vehicle, (ii) an adaptive cruise control system of the equippedvehicle, (iii) a sign recognition system of the equipped vehicle, (iv) anight vision system of the equipped vehicle, (v) a pedestrian detectionsystem of the equipped vehicle, (vi) a vehicle detection system of theequipped vehicle and (vii) a crash avoidance system of the equippedvehicle.
 56. The vehicular accessory system of claim 40, wherein saidcamera captures image data for at least two of (i) a lane departurewarning system of the equipped vehicle, (ii) a sign recognition systemof the equipped vehicle, (iii) a pedestrian detection system of theequipped vehicle, (iv) a vehicle detection system of the equippedvehicle and (v) a headlamp control system of the equipped vehicle. 57.The vehicular accessory system of claim 40, wherein said electricalcircuitry is disposed on a printed circuit board and wherein saidelectrical circuitry comprises a microprocessor, memory and a powersupply.
 58. An accessory system for a vehicle, said vehicular accessorysystem comprising: a mounting element attached at a vehicle windshieldof a vehicle equipped with the accessory system; wherein said mountingelement comprises an attachment portion at a first side of said mountingelement for attachment of said mounting element at the vehiclewindshield; wherein, at least when said mounting element is attached atthe vehicle windshield, a module is mounted at a second side of saidmounting element that opposes said first side; wherein said moduleincludes attaching structure that cooperates with attaching structure ofsaid mounting element in order to detachably mount said module at saidmounting element; wherein said module has a windshield-facing side thatfaces towards the vehicle windshield when said module is mounted at saidmounting element attached at the vehicle windshield; wherein said modulehas a cabin-facing side that faces away from the vehicle windshieldtowards the interior cabin of the equipped vehicle when said module ismounted at said mounting element attached at the vehicle windshield;wherein said module has a housing having a windshield-facing side and acabin-facing side; wherein a camera is disposed in said module; saidcamera comprising a CMOS imaging array sensor and a lens; wherein saidcamera, with said module mounted at said mounting element attached atthe vehicle windshield, views forwardly through the vehicle windshield;wherein said camera captures image data for at least two of (i) a lanedeparture warning system of the equipped vehicle, (ii) a signrecognition system of the equipped vehicle, (iii) a pedestrian detectionsystem of the equipped vehicle, (iv) a vehicle detection system of theequipped vehicle and (v) a headlamp control system of the equippedvehicle; wherein electrical circuitry is disposed in said module andwherein, with said module mounted at said mounting element attached atthe vehicle windshield, said electrical circuitry communicates over avehicle communication bus with at least one system of the equippedvehicle; wherein said lens is spaced from the vehicle windshield whensaid module is mounted at said mounting element attached at the vehiclewindshield; wherein, with said mounting element attached at the vehiclewindshield and with said module mounted at said mounting element, theprincipal axis of the forward field of view of said camera is generallyat or below horizontal; wherein said electrical circuitry is disposed ona printed circuit board and wherein said electrical circuitry comprisesa microprocessor, memory and a power supply; and wherein at least one of(a) said electrical circuitry communicates over said vehiclecommunication bus to provide an output to at least one system of theequipped vehicle and (b) said electrical circuitry receives an inputover said vehicle communication bus from at least one system of theequipped vehicle.
 59. The vehicular accessory system of claim 58,wherein at least two of (i) said attachment portion of said mountingelement is generally flat, (ii) said mounting element comprises ametallic mounting element, (iii) said attachment portion of saidmounting element is configured for adhesive attachment at the vehiclewindshield and (iv) said attaching structure of said module snapattaches to said mounting element to mount said module at said mountingelement.
 60. The vehicular accessory system of claim 58, wherein saidmodule accommodates a rain sensor and wherein, with said module mountedat said mounting element attached at the vehicle windshield, said rainsensor optically couples with the vehicle windshield.
 61. The vehicularaccessory system of claim 58, wherein said camera, with said modulemounted at said mounting element attached at the vehicle windshield,views forwardly through the vehicle windshield via a generallywedge-shaped structure of the windshield-facing side of said housing.62. The vehicular accessory system of claim 61, wherein saidwedge-shaped structure is widest at the vehicle windshield and tapersfrom the vehicle windshield towards where said camera is located. 63.The vehicular accessory system of claim 61, wherein, with said modulemounted at said mounting element attached at the vehicle windshield,said wedge-shaped structure is angled relative to the general plane ofthe windshield-facing side of said module and wherein, with saidmounting element attached at the vehicle windshield and with said modulemounted at said mounting element, said angling relative to the generalplane of the windshield-facing side sets the principal axis of theforward field of view of said camera generally at or below horizontal.64. The vehicular accessory system of claim 58, including a detachablecover that is detachable to access said camera with said module mountedat said mounting element attached at the vehicle windshield.
 65. Thevehicular accessory system of claim 58, wherein said vehiclecommunication bus comprises a LIN bus.
 66. The vehicular accessorysystem of claim 58, wherein said vehicle communication bus comprises aCAN bus.
 67. The vehicular accessory system of claim 58, wherein saidelectrical circuitry communicates over said vehicle communication bus toprovide an output to at least one system of the equipped vehicle andwherein said output communicated over said vehicle communication buscomprises a status indication.
 68. The vehicular accessory system ofclaim 67, wherein said status indication comprises at least one of (i)an intelligent headlamp control status, (ii) a rain sensor status, (iii)a compass status, (iv) an ambient light level status, (v) an exteriorcondition status, (vi) an autolamp status and (vii) a sunload status.69. The vehicular accessory system of claim 58, wherein said electricalcircuitry receives an input over said vehicle communication bus from atleast one system of the equipped vehicle and wherein said input receivedover said vehicle communication bus comprises at least one of (i) anintelligent headlamp control enabled status, (ii) an intelligentheadlamp control disabled status, (iii) a gear transmission status, (iv)a headlamp status, (v) a vehicle speed, (vi) a steering wheel angle and(vii) a turn signal status.
 70. The vehicular accessory system of claim58, wherein said module comprises a connector for connecting to saidvehicle communication bus and wherein said connector comprises amulti-pin connector.
 71. The vehicular accessory system of claim 58,wherein said windshield-facing side of said module comprises a recessand wherein said recess forms, at least in part, a wedge-shapedstructure via which said camera, with said module mounted at saidmounting element attached at the vehicle windshield, views forwardlythrough the vehicle windshield.
 72. The vehicular accessory system ofclaim 58, wherein structure of said module angles the field of view ofsaid camera with respect to the vehicle windshield to at least partiallycompensate for the windshield angle of the vehicle windshield in theequipped vehicle.
 73. The vehicular accessory system of claim 58,wherein said electrical circuitry communicates over said vehiclecommunication bus to provide an output to at least one system of theequipped vehicle and said electrical circuitry receives an input oversaid vehicle communication bus from at least one system of the equippedvehicle.
 74. The vehicular accessory system of claim 58, wherein saidmounting element is adhesively attached at the vehicle windshield. 75.The vehicular accessory system of claim 58, wherein said modulecomprises an attachment element configured for attachment of an interiorrearview mirror assembly thereto.
 76. An accessory system for a vehicle,said vehicular accessory system comprising: a mounting element attachedat a vehicle windshield of a vehicle equipped with the accessory system;wherein said mounting element comprises an attachment portion at a firstside of said mounting element for attachment of said mounting element atthe vehicle windshield; wherein, at least when said mounting element isattached at the vehicle windshield, a module is mounted at a second sideof said mounting element that opposes said first side; wherein saidmodule includes attaching structure that cooperates with attachingstructure of said mounting element in order to detachably mount saidmodule at said mounting element; wherein said module has awindshield-facing side that faces towards the vehicle windshield whensaid module is mounted at said mounting element attached at the vehiclewindshield; wherein said module has a cabin-facing side that faces awayfrom the vehicle windshield towards the interior cabin of the equippedvehicle when said module is mounted at said mounting element attached atthe vehicle windshield; wherein said module has a housing having awindshield-facing side and a cabin-facing side; wherein a camera isdisposed in said module; said camera comprising a CMOS imaging arraysensor and a lens; wherein said camera, with said module mounted at saidmounting element attached at the vehicle windshield, views forwardlythrough the vehicle windshield; wherein said camera captures image datafor at least two of (i) a lane departure warning system of the equippedvehicle, (ii) a sign recognition system of the equipped vehicle, (iii) apedestrian detection system of the equipped vehicle, (iv) a vehicledetection system of the equipped vehicle and (v) a headlamp controlsystem of the equipped vehicle; wherein electrical circuitry is disposedin said module and wherein, with said module mounted at said mountingelement attached at the vehicle windshield, said electrical circuitrycommunicates over a vehicle communication bus with at least one systemof the equipped vehicle; wherein said lens is spaced from the vehiclewindshield when said module is mounted at said mounting element attachedat the vehicle windshield; wherein said electrical circuitry is disposedon a printed circuit board and wherein said electrical circuitrycomprises a microprocessor, memory and a power supply; wherein saidelectrical circuitry communicates over said vehicle communication bus toprovide an output to at least one system of the equipped vehicle andsaid electrical circuitry receives an input over said vehiclecommunication bus from at least one system of the equipped vehicle;wherein at least two of (i) said attachment portion of said mountingelement is generally flat, (ii) said mounting element comprises ametallic mounting element, (iii) said attachment portion of saidmounting element is configured for adhesive attachment at the vehiclewindshield and (iv) said attaching structure of said module snapattaches to said mounting element to mount said module at said mountingelement; and wherein at least one of (a) said output communicated oversaid vehicle communication bus comprises a status indication, (b) saidoutput communicated over said vehicle communication bus comprises astatus indication, (c) said output communicated over said vehiclecommunication bus comprises least one of (i) an intelligent headlampcontrol status, (ii) a rain sensor status, (iii) a compass status, (iv)an ambient light level status, (v) an exterior condition status, (vi) anautolamp status and (vii) a sunload status, and (c) said input receivedover said vehicle communication bus comprises at least one of (i) anintelligent headlamp control enabled status, (ii) an intelligentheadlamp control disabled status, (iii) a gear transmission status, (iv)a headlamp status, (v) a vehicle speed, (vi) a steering wheel angle and(vii) a turn signal status.
 77. The vehicular accessory system of claim76, wherein said camera, with said module mounted at said mountingelement attached at the vehicle windshield, views forwardly through thevehicle windshield via a generally wedge-shaped structure of thewindshield-facing side of said housing.
 78. The vehicular accessorysystem of claim 77, wherein said wedge-shaped structure is widest at thevehicle windshield and tapers from the vehicle windshield towards wheresaid camera is located.
 79. The vehicular accessory system of claim 77,wherein, with said module mounted at said mounting element attached atthe vehicle windshield, said wedge-shaped structure is angled relativeto the general plane of the windshield-facing side of said module andwherein, with said mounting element attached at the vehicle windshieldand with said module mounted at said mounting element, said anglingrelative to the general plane of the windshield-facing side sets theprincipal axis of the forward field of view of said camera generally ator below horizontal.
 80. The vehicular accessory system of claim 77,including a detachable cover that is detachable to access said camerawith said module mounted at said mounting element attached at thevehicle windshield.
 81. The vehicular accessory system of claim 77,wherein said vehicle communication bus comprises a LIN bus.
 82. Thevehicular accessory system of claim 77, wherein said vehiclecommunication bus comprises a CAN bus.
 83. The vehicular accessorysystem of claim 77, wherein at least one of (a) said output communicatedover said vehicle communication bus comprises a status indication, and(b) said output communicated over said vehicle communication buscomprises a status indication and wherein said status indicationcomprises at least one of (i) an intelligent headlamp control status,(ii) a rain sensor status, (iii) a compass status, (iv) an ambient lightlevel status, (v) an exterior condition status, (vi) an autolamp statusand (vii) a sunload status.
 84. The vehicular accessory system of claim77, wherein said input received over said vehicle communication buscomprises at least one of (i) an intelligent headlamp control enabledstatus, (ii) an intelligent headlamp control disabled status, (iii) agear transmission status, (iv) a headlamp status, (v) a vehicle speed,(vi) a steering wheel angle and (vii) a turn signal status.
 85. Thevehicular accessory system of claim 77, wherein at least one of (a) saidmodule comprises a connector for connecting to said vehiclecommunication bus and wherein said connector comprises a multi-pinconnector, (b) said windshield-facing side of said module comprises arecess and wherein said recess forms, at least in part, saidwedge-shaped structure via which said camera, with said module mountedat said mounting element attached at the vehicle windshield, viewsforwardly through the vehicle windshield, (c) structure of said moduleangles the field of view of said camera with respect to the vehiclewindshield to at least partially compensate for the windshield angle ofthe vehicle windshield in the equipped vehicle, (d) with said mountingelement attached at the vehicle windshield and with said module mountedat said mounting element, the principal axis of the forward field ofview of said camera is generally at or below horizontal and (e) saidmodule comprises an attachment element configured for attachment of aninterior rearview mirror assembly thereto.
 86. An accessory system for avehicle, said vehicular accessory system comprising: a mounting elementattached at a vehicle windshield of a vehicle equipped with theaccessory system; wherein said mounting element comprises an attachmentportion at a first side of said mounting element for attachment of saidmounting element at the vehicle windshield; wherein, at least when saidmounting element is attached at the vehicle windshield, a module ismounted at a second side of said mounting element that opposes saidfirst side; wherein said module includes attaching structure thatcooperates with attaching structure of said mounting element in order todetachably mount said module at said mounting element; wherein saidmodule has a windshield-facing side that faces towards the vehiclewindshield when said module is mounted at said mounting element attachedat the vehicle windshield; wherein said module has a cabin-facing sidethat faces away from the vehicle windshield towards the interior cabinof the equipped vehicle when said module is mounted at said mountingelement attached at the vehicle windshield; wherein said module has ahousing having a windshield-facing side and a cabin-facing side; whereina camera is disposed in said module; said camera comprising a CMOSimaging array sensor and a lens; wherein said camera, with said modulemounted at said mounting element attached at the vehicle windshield,views forwardly through the vehicle windshield; wherein said cameracaptures image data for at least two of (i) a lane departure warningsystem of the equipped vehicle, (ii) a sign recognition system of theequipped vehicle, (iii) a pedestrian detection system of the equippedvehicle, (iv) a vehicle detection system of the equipped vehicle and (v)a headlamp control system of the equipped vehicle; wherein electricalcircuitry is disposed in said module and wherein, with said modulemounted at said mounting element attached at the vehicle windshield,said electrical circuitry communicates over a vehicle communication buswith at least one system of the equipped vehicle; wherein said lens isspaced from the vehicle windshield when said module is mounted at saidmounting element attached at the vehicle windshield; wherein saidelectrical circuitry is disposed on a printed circuit board and whereinsaid electrical circuitry comprises a microprocessor, memory and a powersupply; and wherein said electrical circuitry communicates over saidvehicle communication bus to provide an output to at least one system ofthe equipped vehicle and said electrical circuitry receives an inputover said vehicle communication bus from at least one system of theequipped vehicle.
 87. The vehicular accessory system of claim 86,wherein at least two of (i) said attachment portion of said mountingelement is generally flat, (ii) said mounting element comprises ametallic mounting element, (iii) said attachment portion of saidmounting element is configured for adhesive attachment at the vehiclewindshield and (iv) said attaching structure of said module snapattaches to said mounting element to mount said module at said mountingelement.
 88. The vehicular accessory system of claim 86, wherein saidmodule accommodates a rain sensor and wherein, with said module mountedat said mounting element attached at the vehicle windshield, said rainsensor optically couples with the vehicle windshield.
 89. The vehicularaccessory system of claim 86, wherein at least one of (a) said camera,with said module mounted at said mounting element attached at thevehicle windshield, views forwardly through the vehicle windshield via agenerally wedge-shaped structure of the windshield-facing side of saidhousing, (b) said camera, with said module mounted at said mountingelement attached at the vehicle windshield, views forwardly through thevehicle windshield via a generally wedge-shaped structure and whereinsaid wedge-shaped structure of the windshield-facing side of saidhousing is widest at the vehicle windshield and tapers from the vehiclewindshield towards where said camera is located, (c) said camera, withsaid module mounted at said mounting element attached at the vehiclewindshield, views forwardly through the vehicle windshield via agenerally wedge-shaped structure of the windshield-facing side of saidhousing and (d) the principal axis of the forward field of view of saidcamera is generally at or below horizontal.
 90. The vehicular accessorysystem of claim 86, wherein at least one of (a) said vehiclecommunication bus comprises a LIN bus, (b) said vehicle communicationbus comprises a CAN bus, (c) said module comprises a connector forconnecting to said vehicle communication bus and wherein said connectorcomprises a multi-pin connector, (d) said windshield-facing side of saidmodule comprise a recess and wherein said recess forms, at least inpart, a wedge-shaped structure of the windshield-facing side of saidhousing via which said camera, with said module mounted at said mountingelement attached at the vehicle windshield, views forwardly through thevehicle windshield, (e) structure of said module angles the field ofview of said camera with respect to the vehicle windshield to at leastpartially compensate for the windshield angle of the vehicle windshieldin the equipped vehicle, (f) with said mounting element attached at thevehicle windshield and with said module mounted at said mountingelement, the principal axis of the forward field of view of said camerais generally at or below horizontal and (g) said module comprises anattachment element configured for attachment of an interior rearviewmirror assembly thereto.